Page 1 R&S ® Vector Network Analyzers Service Manual 1177.5333.02 – 03...
Page 2 The Service Manual describes the following R&S ZVA models and options: ● R&S® ZVA8, order no. 1145.1110.08/10 (2 or 4 test ports) ● R&S® ZVA24, order no. 1145.1110.24/26 (2 or 4 test ports) ● R&S® ZVA40, order no. 1145.1110.40/42/43/45 (2.92 mm, 2 or 4 test ports and 2.4 mm, 2 or 4 test ports) ●...
Page 3 Basic Safety Instructions Always read through and comply with the following safety instructions! All plants and locations of the Rohde & Schwarz group of companies make every effort to keep the safety standards of our products up to date and to offer our customers the highest possible degree of safety. Our products and the auxiliary equipment they require are designed, built and tested in accordance with the safety standards that apply in each case.
Page 4 Basic Safety Instructions Symbol Meaning Symbol Meaning Caution ! Hot surface Alternating current (AC) Protective conductor terminal Direct/alternating current (DC/AC) To identify any terminal which is intended for connection to an external conductor for protection against electric shock in case of a fault, or the terminal of a protective earth Earth (Ground) Class II Equipment...
Page 5 Basic Safety Instructions Operating states and operating positions The product may be operated only under the operating conditions and in the positions specified by the manufacturer, without the product's ventilation being obstructed. If the manufacturer's specifications are not observed, this can result in electric shock, fire and/or serious personal injury or death. Applicable local or national safety regulations and rules for the prevention of accidents must be observed in all work performed.
Page 6 Basic Safety Instructions 6. The product may be operated only from TN/TT supply networks fuse-protected with max. 16 A (higher fuse only after consulting with the Rohde & Schwarz group of companies). 7. Do not insert the plug into sockets that are dusty or dirty. Insert the plug firmly and all the way into the socket provided for this purpose.
Page 7 Basic Safety Instructions 2. Before you move or transport the product, read and observe the section titled "Transport". 3. As with all industrially manufactured goods, the use of substances that induce an allergic reaction (allergens) such as nickel cannot be generally excluded. If you develop an allergic reaction (such as a skin rash, frequent sneezing, red eyes or respiratory difficulties) when using a Rohde &...
Page 8 Basic Safety Instructions 2. Adjustments, replacement of parts, maintenance and repair may be performed only by electrical experts authorized by Rohde & Schwarz. Only original parts may be used for replacing parts relevant to safety (e.g. power switches, power transformers, fuses). A safety test must always be performed after parts relevant to safety have been replaced (visual inspection, protective conductor test, insulation resistance measurement, leakage current measurement, functional test).
Page 9 Instrucciones de seguridad elementales Waste disposal/Environmental protection 1. Specially marked equipment has a battery or accumulator that must not be disposed of with unsorted municipal waste, but must be collected separately. It may only be disposed of at a suitable collection point or via a Rohde &...
Page 10 Instrucciones de seguridad elementales Se parte del uso correcto del producto para los fines definidos si el producto es utilizado conforme a las indicaciones de la correspondiente documentación del producto y dentro del margen de rendimiento definido (ver hoja de datos, documentación, informaciones de seguridad que siguen). El uso del producto hace necesarios conocimientos técnicos y ciertos conocimientos del idioma inglés.
Page 11 Instrucciones de seguridad elementales Símbolo Significado Símbolo Significado Aviso: Cuidado en el manejo de dispositivos Distintivo de la UE para la eliminación por sensibles a la electrostática (ESD) separado de dispositivos eléctricos y electrónicos Más información en la sección "Eliminación/protección del medio ambiente", punto 2.
Page 12 Instrucciones de seguridad elementales 1. Si no se convino de otra manera, es para los productos Rohde & Schwarz válido lo que sigue: como posición de funcionamiento se define por principio la posición con el suelo de la caja para abajo, modo de protección IP 2X, uso solamente en estancias interiores, utilización hasta 2000 m sobre el nivel del mar, transporte hasta 4500 m sobre el nivel del mar.
Page 13 Instrucciones de seguridad elementales 6. Solamente está permitido el funcionamiento en redes de alimentación TN/TT aseguradas con fusibles de 16 A como máximo (utilización de fusibles de mayor amperaje solo previa consulta con el grupo de empresas Rohde & Schwarz). 7.
Page 14 Instrucciones de seguridad elementales Funcionamiento 1. El uso del producto requiere instrucciones especiales y una alta concentración durante el manejo. Debe asegurarse que las personas que manejen el producto estén a la altura de los requerimientos necesarios en cuanto a aptitudes físicas, psíquicas y emocionales, ya que de otra manera no se pueden excluir lesiones o daños de objetos.
Page 15 Instrucciones de seguridad elementales Reparación y mantenimiento 1. El producto solamente debe ser abierto por personal especializado con autorización para ello. Antes de manipular el producto o abrirlo, es obligatorio desconectarlo de la tensión de alimentación, para evitar toda posibilidad de choque eléctrico. 2.
Page 16 Instrucciones de seguridad elementales 2. Las asas instaladas en los productos sirven solamente de ayuda para el transporte del producto por personas. Por eso no está permitido utilizar las asas para la sujeción en o sobre medios de transporte como p. ej. grúas, carretillas elevadoras de horquilla, carros etc. Es responsabilidad suya fijar los productos de manera segura a los medios de transporte o elevación.
Page 17 Instructions - Instrucciones Instructions for Electrostatic Discharge Protection Risk of damaging electronic components To avoid damage of electronic components, the operational site must be protected against electrostatic discharge (ESD). Wrist strap with cord Floor mat Heel strap Ground connection of operational site The following two methods of ESD protection may be used together or separately: , Wrist strap with cord to ground connection...
Page 18 Instructions - Instrucciones Instrucciones para la protección contra descargas electroestáticas Riesgo de avería de los componentes electrónicos Para evitar averías en los componentes electrónicos, el área de trabajo tiene que estar protegido contra descargas electroestáticas ESD (elec- trostatic discharge). Muñequera con cordón Estera Talonera Conexión a tierra del...
Page 19 Safety Instructions - Informaciones de seguridad Safety Instructions for Units with Removable Cabinet Danger of injuries When removing the rear feet, the unit can slip out of the cabinet. Put the unit onto the front handles, before removing the rear feet and taking off the cabinet.
Page 20 Safety Instructions - Informaciones de seguridad Informaciones de seguridad para aparatos con tubo de quita y pon Peligro de heridas Al sacar los piés de la pared posterior puede deslizarse el aparato fue- ra de la caja. Posicionar el aparato de manera segura sobre las asas delanteras, antes de sacar los piés de la pared posterior y entonces sacar la caja.
Page 21 Procedure in Case of Service and Ordering of Spare Parts This section contains information on shipping an instrument to your service center and ordering spare parts. Please contact your local Rohde & Schwarz service center if you need service or repair work of your equipment or to order spare parts.
Page 22 Ordering Spare Parts To deliver spare parts promptly and correctly, we need the following information: ● Stock number (see list of spare parts in chapter "Documents") ● Designation ● Component number according to list of spare parts ● Number of pieces ●...
Page 23 R&S ZVA Index Index Alignment ............... 2.1 Instrument construction ..........3.1 Frequency accuracy ..........2.4 Frequency response correction ....2.5, 2.6, 2.7 Level accuracy ............2.6 Manual ..............2.2 Keyboard Reference frequency ..........2.4 Function ..............3.24 Test equipment ............2.2 Replacement ............
Page 24 Index R&S ZVA Software update ............. 4.1 Test equipment Spare parts Alignment ..............2.2 list of all parts .............. 3 Performance test ............1.2 Synthesizer Test equpment Replacement ............3.72 Troubleshooting ............3.79 Troubleshooting Power-up problems ..........3.80 Troubleshooting Boot problems ............3.81 Selftest ..........
Page 25: Table Of Contents
Checking the Dynamic Range ....................1.13 Checking the Receiver Attenuator (only with Option Receiver Attenuator) ......1.14 Checking the DC Measurement Inputs .................. 1.15 ® Performance Test Report R&S ZVA8 ..................1.16 ® Performance Test Report R&S ZVA24 ..................1.45 ®...
Page 26: Performance Test
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test 1 Performance Test Preliminary Remarks  The required characteristics of the network analyzer are checked after a warm-up time of at least 60 minutes; this ensures that the guaranteed data is met. ...
Page 27: Test Equipment And Accessories
300 kHz to 40 GHz, R&S SML01 1090.3000.11 Power measurement a generator Power = -40 dBm to 10 dBm R&S SMR40 1104.0002.40 on R&S ZVA8, R&S with Option ZVA24 and R&S ZVA40 R&S SMR-B17 1104.5233.02 Signal 40 GHz to 67 GHz, SMR50 1134.9008.50...
Page 28 Test cable N (m) to N (m). R&S ZV-Z191 1306.4507.24 Frequency uncertainty Harmonics Matching port 1 to port 4 Power measurement accuracy on R&S ZVA8 Test cable Test cable 2.92 mm (m) to 2.92mm R&S ZV-Z195 1306.4536.24 Frequency uncertainty Harmonics Matching port 1 to port 4...
Page 29: Performance Test
Performance Test R&S ZVA Performance Test Compare with data sheet Checking the Frequency Accuracy Spectrum analyzer (see Chapter “Test Equipment“, Item1) Instrument: Test cable (see Chapter “Test Equipment“, Item7) Test setup: Connect the spectrum analyzer to port 1 Syncronize spectrum analyzer with ext. normal frequency 10MHz Spectrum analyzer settings: - [ PRESET ] - [ FREQ : 1 GHz ]...
Page 30: Checking The Maximum Output Power
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Checking the Maximum Output Power Test equipment: Power sensor (item 3) ZVA24, ZVA40, ZVA50, ZVA67, ZVB14, ZVB20 only: Calibration kit (item Test setup: Connect power sensor to test port # of DUT, (ZVA24, ZVA40, ZVA50, ZVA67, ZVB14, ZVB20 only: using the ff adapter from the calibration kit) Power sensor settings: Set frequency to f...
Page 31: Checking The Accuracy Of Output Power
Performance Test R&S ZVA Checking the Accuracy of Output Power Instrument: Power sensor or Power meter with power sensor (see Chapter “Test Equipment“, Item2) Test setup: Connect the power sensor to port # Power sensor settings: For measurement frequencies, see Performance Test Report {f ®...
Page 32: Checking The Power Measurement Accuracy
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Checking the Power Measurement Accuracy Instrument: Power sensor or Power meter with power sensor (see Chapter “Test Equipment“, Item2) Signal generator (see Chapter “Test Equipment“, Item5) Power splitter (see Chapter “Test Equipment“, Item6) Calibration kit (see Chapter “Test Equipment“, Item4) Test cable (see Chapter “Test Equipment“, Item7)
Page 33: Checking The Input Linearity
Performance Test R&S ZVA Checking the Input Linearity Calibration kit (see Chapter “Test Equipment“, Item4) Instrument: ® R&S ZVA settings: - [ Preset ] - [ Meas : Ratios: b#/a# Src Port #] - [ Meas Bandwidth : 10 Hz ] - [ Marker] - [ Sweep : Sweep Type : Power : Start -40dBm : Stop 10dBm : CW Frequency : {f...
Page 34: Checking The Harmonics
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Checking the Harmonics Test cable (see Chapter “Test Equipment", Item7) Instrument: 20dB attenuator (see Chapter “Test Equipment", Item7) Test setup: Connect the attenuator to one of the other ports (portx) Connect one end of the test cable to the attenuator Calibration: Perform a power calibration (with test cable and attenuator, for power...
Page 35: Checking The Output Linearity
Performance Test R&S ZVA Checking the Output Linearity Test cable (see Chapter “Test Equipment“, Item7) Instrument: 20dB attenuator (see Chapter “Test Equipment", Item7) Test setup: Connect the attenuator to port# Connect the test cable to the attenuator and to one of the other ports (portx) ®...
Page 36: Checking The Input Noise Level
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Checking the Input Noise Level Test equipment: Calibration kit (see Chapter “Test Equipment“, Item4) Test setup: Connect the Match Male from the calibration kit to port # ®...
Page 37: Checking The Matching (Raw)
Performance Test R&S ZVA Checking the Matching (raw) Calibration kit (see Chapter “Test Equipment“, Item4) Instrument: Test cable (see Chapter “Test Equipment“, Item7) ® R&S ZVA settings: - [ Preset ] - [ Power : 0 dBm ] ® 1. Preparation/ Connect the test cable to port x on the R&S ZVA and perform a 1-port test setup:...
Page 38: Checking The Dynamic Range
- [ Sweep : Sweep Type : CW Mode : CW Frequency : {f **}] - [ Measure : Wave Quantities : More Wave Quantities… : Properties : Detector : RMS Meas Time: 1 s (ZVA8), 0.5 s (ZVA24, ZVA40, ZVA50, ZVA67, ZVA80BU)] - [ Sweep : Single : Restart] * Not valid with ZVA80BU ** For measurement frequencies, see Performance Test Report {fGEN}.
Page 39: Checking The Receiver Attenuator (Only With Option Receiver Attenuator)
Performance Test R&S ZVA Checking the Receiver Attenuator (only with Option Receiver Attenuator) Test equipment: Calibration kit N (see Chapter “Test Equipment“, Item4) Test setup: Connect Short Male to port# ® R&S ZVA settings: - [ Preset ] - [ Meas : Wave Quantities : b#/ Src Port #] - [ Power : 0 dBm ] - [ Meas Bandwidth : 100 Hz ] - [Trace Funct : Data ->...
Page 40: Checking The Dc Measurement Inputs
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Checking the DC Measurement Inputs DC Power Supply NGSM 32/10 (see Chapter “Test Equipment“, Item 10) Test equipment: Multimeter URE3 (see Chapter “Test Equipment“, Item11) DC cable (see Chapter “Test Equipment“, Item12) Test setup: Connect the Power Supply to the Input DC MEAS 1V (DC MEAS 10V) of...
Page 41 Performance Test R&S ZVA Performance Test Report R&S® ZVA8 ROHDE&SCHWARZ Vector Network Analyzer 8 GHz, _ ports 1145.1110K__ ® R&S ZVA8 Serial number: Date: Person responsible: Signature: Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Frequency deviation Page 1.4...
Page 42 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +8dBm Freq. Harmonics 50 MHz 100 MHz ________ 0.6 dB 150 MHz...
Page 43 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (without opt. gen atten. and dir. gen/rec access) Test frequency: 300 kHz ________ 1 MHz ________ 2 MHz ________ 5 MHz...
Page 44 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. or dir. gen/rec access) Test frequency: 300 kHz ________...
Page 45 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. and dir. gen/rec access) Test frequency: 300 kHz ________ 1 MHz ________ 2 MHz ________ 5 MHz...
Page 46 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency: 300 kHz ________ 1 MHz...
Page 47 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 51 MHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
Page 48 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 49 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 6 GHz 20 dB - 0.8 ________ 15 dB - 0.8 ________ 10 dB...
Page 50 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 51 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 1 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 52 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 53 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 4 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 54 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 55 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.2 dB Power measurement uncertainty Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________ 500 MHz ________...
Page 56 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Frequ. Level 50 MHz 20 dB -0.1 ________...
Page 57 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Frequ. Level 8 GHz 20 dB -0.1 ________ 15 dB -0.1 ________ 10 dB -0.1 ________ 5 dB...
Page 58 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (without opt. rec atten. and dir. gen/rec access Test frequency: –100 –...
Page 59 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec attenuator Test frequency: –99 – 423 kHz ________ –99 – 1.12 MHz ________ –99 – 2.12 MHz ________ –99...
Page 60 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. dir. gen/rec access) Test frequency: –99 –...
Page 61 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. rec. atten. and opt. dir. gen/rec access) Test frequency: –98 – 423 kHz ________ –98 – 1.12 MHz ________ –98...
Page 62 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 1 dB Matching (raw) Test frequency: 300 kHz ________ 1 MHz ________ 2 MHz ________...
Page 63 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port __ Page 1.13 Dynamic range (without options step attenuator and direct generator/receiver access) Test frequency: 303 kHz ________ 1.12 MHz ________ 2.12 MHz ________ 5.12 MHz...
Page 64 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port __ Page 1.13 Dynamic range (with option generator or receiver attenuator) Test frequency: 303 kHz ________...
Page 65 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port __ Page 1.13 Dynamic range (with option generator and receiver attenuator or with option direct generator/receiver access) Test frequency: 303 kHz ________ 1.12 MHz ________...
Page 66 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port __ Page 1.13 Dynamic range (with options generator attenuator or receiver attenuator and option direct generator/receiver access) Test frequency:...
Page 67 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port __ Page 1.13 Dynamic range (with options generator attenuator and receiver attenuator and direct generator/receiver access) Test frequency: 303 kHz ________ 1.12 MHz ________ 2.12 MHz...
Page 68 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 69 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5 -300 mV - 10.0 ________ + 10.0 -10 mV - 2.75 ________...
Page 70 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test ® Performance Test Report R&S ZVA24 ROHDE&SCHWARZ Vector Network Analyzer, 24 GHz, _ ports 1145.1110K__ ® R&S ZVA24 Serial number: Date: Person responsible: Signature: Parameter Reference Min.
Page 71 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10dBm Freq. Harmonics 50 MHz 100 MHz ________ 0.6 dB 150 MHz ________ 0.6 dB 100 MHz 200 MHz ________ 0.6 dB 300 MHz...
Page 72 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Freq. Harmonics 5.04 GHz 10.08 GHz ________ 1.1 dB 15.12 GHz ________ 1.1 dB...
Page 73 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (without opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 74 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. or dir. gen/rec access) Test frequency: 10 MHz ________...
Page 75 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 76 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency: 10 MHz ________ 20 MHz...
Page 77 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 51 MHz 23 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 78 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 79 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 6 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
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Page 81 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 51 MHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 82 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 83 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 2.1 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
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Page 85 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 6 GHz 22 dB ________ 19 dB ________ 15 dB ________ 10 dB...
Page 86 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 87 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 16 GHz 18 dB ________ 15 dB ________ 10 dB ________ 5 dB...
Page 88 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 89 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.3 dB Power measurement uncertainty Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________ 500 MHz ________...
Page 90 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 50 MHz 20 dB -0.1 ________...
Page 91 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 20 GHz 20 dB -0.3 ________ 15 dB -0.3 ________ 10 dB -0.1 ________ 5 dB...
Page 92 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (without opt. gen/rec atten. and dir. gen/rec access) Test frequency –80 –...
Page 93 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec attenuator Test frequency: –79 – 100.12 MHz ________ –79 – 200.12 MHz ________ –79 – 500.12 MHz ________ –109...
Page 94 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. direct gen/rec access) Test frequency: –79 –...
Page 95 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. rec. attenuator and opt. direct gen/rec access) Test frequency: –78 – 100.12 MHz ________ –78 – 200.12 MHz ________ –78...
Page 96 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 1 dB Matching (raw) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________...
Page 97 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without options step atten. and direct gen./rec. access) Test frequency: 10.12 MHz ________ 20.12 MHz ________ 50.12 MHz ________ 100.12 MHz...
Page 98 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. gen. or rec. atten.) Test frequency: 10.12 MHz ________...
Page 99 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. gen. and rec. atten. or with opt. direct gen./rec. access) Test frequency: 10.12 MHz ________ 20.12 MHz ________...
Page 100 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. gen. or rec. atten. and with opt.
Page 101 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. gen. and rec. atten. and w. opt. dir. gen./rec. acc.) Test frequency: 10.12 MHz ________ 20.12 MHz ________...
Page 102 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 103 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 35 dB 10 MHz ________ 1.0 GHz ________ 2.0 GHz ________ 4.0 GHz ________...
Page 104: Mv - 10.0
FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5...
Page 105 Performance Test R&S ZVA ® Performance Test Report R&S ZVA40 ROHDE&SCHWARZ Vector Network Analyzer, 40 GHz, _ ports 1145.1110K__ ® R&S ZVA40 Serial number: Date: Person responsible: Signature: Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Frequency deviation Page 1.4 1 Hz @ 1 GHz...
Page 106 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10dBm Freq. Harmonics 50 MHz 100 MHz ________ 0.6 dB 150 MHz...
Page 107 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Freq. Harmonics 5.05 GHz 10.10 GHz ________ 1.1 dB 15.15 GHz ________ 1.1 dB 5.5 GHz 11.0 GHz ________ 1.1 dB 16.5 GHz ________ 1.1 dB...
Page 108 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10 Freq. Harmonics ________ 1.7 dB 17.0 GHz 34.0 GHz ________ 1.7 dB 18.0 GHz 36.0 GHz...
Page 109 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (without opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 110 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 111 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. or dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 112 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 113 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 114 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 115 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________...
Page 116 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.3 dB Power Accuracy Output power -10 dBm Test frequency: 25 GHz ________ 26 GHz...
Page 117 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 51 MHz 23 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 118 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 119 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 6 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
Page 120 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 121 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 40 GHz 19 dB - 0.8 ________ 15 dB - 0.8 ________ 10 dB...
Page 122 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 123 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 1 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 124 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 125 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 4 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 126 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 127 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 10 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 128 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 129 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 24 GHz 18 dB ________ 15 dB ________ 10 dB ________ 5 dB...
Page 130 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 131 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.2 dB ↓ Power measurement uncertainty Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________ 500 MHz ________...
Page 132 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.4 dB Power measurement uncertainty Test frequency: 25.0 GHz ________ 26.0 GHz ________ 27.0 GHz...
Page 133 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm 50 MHz 20 dB -0.1 ________ 15 dB -0.1 ________ 10 dB -0.1 ________ 5 dB -0.1 ________...
Page 134 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm 24 GHz 10 dB -0.3 ________ 5 dB...
Page 135 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (without opt. gen/rec atten. and dir. gen/rec access Test frequency: –80 – 100.12 MHz ________ –80 – 200.12 MHz ________ –110 –...
Page 136 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level without opt. gen/rec atten. and dir. gen/rec access Test frequency –105 –...
Page 137 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. Test frequency: –79 – 100.12 MHz ________ –79 – 200.12 MHz ________ –109 – 500.12 MHz ________ –109...
Page 138 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. rec atten.) Test frequency –102 –...
Page 139 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. dir. gen/rec access) Test frequency: –79 – 100.12 MHz ________ –79 – 200.12 MHz ________ –109 –...
Page 140 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. dir. gen/rec access) Test frequency: –102 –...
Page 141 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec. atten. and opt. dir. gen/rec access) Test frequency: –78 – 100.12 MHz ________ –78 – 200.12 MHz ________ –108...
Page 142 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec. atten. and opt. dir. gen/rec access) Test frequency: –99 –...
Page 143 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 Matching (raw) without opt. dir. gen/rec access) Test frequency: 10 MHz ________ 1 dB 20 MHz ________ 1 dB 50 MHz ________ 1 dB 100 MHz...
Page 144 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 0.5 dB Matching (raw) without opt. dir. gen/rec access) Test frequency: 33.0 GHz ________ 34.0 GHz...
Page 145 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 Matching (raw) with opt. dir. gen/rec access) Test frequency: 10 MHz ________ 1 dB 20 MHz ________ 1 dB 50 MHz ________ 1 dB 100 MHz...
Page 146 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 0.5 dB Matching (raw) with opt. dir. gen/rec access) Test frequency: 33.0 GHz ________ 34.0 GHz...
Page 147 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without opt. step attenuator and without opt. direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 148 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without opt. step attenuator and without opt. direct generator/receiver access) Test frequency: –...
Page 149 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator or receiver attenuator) Test frequency: – 10.0 MHz ________ – 20.0 MHz ________ –...
Page 150 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator or receiver attenuator) Test frequency: –...
Page 151 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator and receiver attenuator or with opt. direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 152 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Page 1.13 Port __ to Port ___ Dynamic range (with opt. generator and receiver attenuator or with opt.
Page 153 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator or receiver attenuator and with opt. direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 154 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator or receiver attenuator and with opt.
Page 155 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with opt. generator and receiver attenuator and with opt. direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 156 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Page 1.13 Port __ to Port ___ Dynamic range (with opt. generator and receiver attenuator and with opt.
Page 157 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 5 dB 10 MHz ________ 1.0 GHz ________ 2.0 GHz ________ 4.0 GHz ________...
Page 158 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 159 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5 -300 mV - 10.0 ________ + 10.0 -10 mV - 2.75 ________...
Page 160 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test ® Performance Test Report R&S ZVA50 ROHDE&SCHWARZ Vector Network Analyzer, 50 GHz, _ ports 1145.1110K__ ® R&S ZVA50 Serial number: Date: Person responsible: Signature: Parameter Reference Min.
Page 161 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10dBm Freq. Harmonics 50 MHz 100 MHz ________ 0.6 dB 150 MHz ________ 0.6 dB 100 MHz 200 MHz ________ 0.6 dB 300 MHz...
Page 162 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Freq. Harmonics 5.04 GHz 10.08 GHz ________ 1.0 dB 15.12 GHz ________ 1.0 dB...
Page 163 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10 Freq. Harmonics 15.0 GHz 30.0 GHz ________ 1.6 dB 45.0 GHz ________ 1.6 dB 16.0 GHz 32.0 GHz ________ 1.6 dB 17.0 GHz 34.0 GHz...
Page 164 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (without opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________...
Page 165 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________ 30 GHz ________ 31 GHz ________ 32 GHz ________ 33 GHz...
Page 166 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. or dir. gen/rec access) Test frequency: 10 MHz ________...
Page 167 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________ 30 GHz ________ 31 GHz ________ 32 GHz ________ 33 GHz...
Page 168 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________...
Page 169 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________ 30 GHz ________ 31 GHz ________ 32 GHz ________ 33 GHz...
Page 170 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency 10 MHz ________ 20 MHz...
Page 171 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.3 dB ↓ Power Accuracy Output power -10 dBm Test frequency 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 172 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 173 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 2.1 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
Page 174 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 175 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 16 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
Page 176 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 177 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 51 MHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 178 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 179 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 2.1 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 180 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 181 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 6 GHz 22 dB ________ 19 dB ________ 15 dB ________ 10 dB...
Page 182 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 183 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 16 GHz 21 dB ________ 18 dB ________ 10 dB ________ 5 dB...
Page 184 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 185 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 32 GHz 19 dB ________ 15 dB ________ 10 dB ________ 5 dB...
Page 186 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 187 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.2 dB Power measurement uncertainty Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________ 500 MHz ________...
Page 188 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 Power measurement uncertainty Test frequency: 25.0 GHz ________ 0.3 dB ↓...
Page 189 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 50 MHz 20 dB -0.1 ________ 15 dB -0.1 ________ 10 dB -0.1 ________ 5 dB...
Page 190 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 24 GHz 10 dB -0.3 ________...
Page 191 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (without opt. gen/rec atten. and dir. gen/rec access Test frequency –100 – 100.12 MHz ________ –100 – 200.12 MHz ________ –115 –...
Page 192 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level without opt. gen/rec atten. and dir. gen/rec access Test frequency –110 –...
Page 193 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. receiver atten.) Test frequency –99 – 100.12 MHz ________ –99 – 200.12 MHz ________ –114 – 500.12 MHz ________ –114...
Page 194 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. receiver atten.) Test frequency –107 –...
Page 195 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. dir. gen/rec access) Test frequency –99 – 100.12 MHz ________ –99 – 200.12 MHz ________ –114 –...
Page 196 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. dir. gen/rec access) Test frequency –107 –...
Page 197 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. and dir. gen/rec access) Test frequency –98 – 100.12 MHz ________ –98 – 200.12 MHz ________ –113 –...
Page 198 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. and dir. gen/rec access) Test frequency –104 –...
Page 199 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 Matching (raw) Test frequency 10 MHz ________ 1 dB 20 MHz ________ 1 dB 50 MHz ________ 1 dB 100 MHz ________ 0.4 dB ↓...
Page 200 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 0.4 dB Matching (raw) Test frequency 33.0 GHz ________ 34.0 GHz ________ 35.0 GHz ________...
Page 201 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without option step attenuator and without option direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 202 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without option step attenuator and without option direct generator/receiver access)
Page 203 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator or receiver attenuator) Test frequency: – 10.0 MHz ________ – 20.0 MHz ________ –...
Page 204 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Page 1.13 Port __ to Port ___ Dynamic range (with option generator or receiver attenuator) Test frequency: –...
Page 205 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator and receiver attenuator or with option direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 206 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range ZVA440, ZVA50 (with option generator and receiver attenuator or with option direct generator/receiver...
Page 207 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator or receiver attenuator and with option direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 208 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Page 1.13 Port __ to Port ___ Dynamic range ZVA440, ZVA50 (with option generator or receiver attenuator and with option direct generator/receiver...
Page 209 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator and receiver attenuator and with option direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 210 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Page 1.13 Port __ to Port ___ Dynamic range (with option generator and receiver attenuator and with option direct generator/receiver access)
Page 211 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 5 dB 10 MHz ________ 1.0 GHz ________ 2.0 GHz ________ 4.0 GHz ________...
Page 212 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 213 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 35 dB 18.0GHz ________ 20.0 GHz ________ 22.0 GHz ________ 24.0 GHz ________...
Page 214 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5...
Page 215 Performance Test R&S ZVA ® Performance Test Report R&S ZVA67 ROHDE&SCHWARZ Vector Network Analyzer, 67 GHz, _ ports 1145.1110K__ ® R&S ZVA67 Serial number: Date: Person responsible: Signature: Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Frequency deviation Page 1.4 1 Hz @ 1 GHz...
Page 216 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10dBm Freq. Harmonics 50 MHz 100 MHz ________ 0.6 dB 150 MHz...
Page 217 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +7dBm Freq. Harmonics 5.04 GHz 10.08 GHz ________ 1.0 dB 15.12 GHz ________ 1.0 dB 5.05 GHz 10.10 GHz ________ 1.0 dB 15.15 GHz...
Page 218 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 Harmonics Source power +10 Freq. Harmonics 15.0 GHz 30.0 GHz ________ 1.6 dB 45.0 GHz...
Page 219 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (without opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 220 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 221 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. or dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 222 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 223 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Maximum Output power (with opt. gen atten. and dir. gen/rec access) Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz...
Page 224 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty 0.3 dB ↓ ________ 25 GHz ________ 26 GHz ________ 27 GHz ________ 28 GHz ________ 29 GHz ________...
Page 225 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________...
Page 226 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 Power Accuracy Output power -10 dBm Test frequency 25 GHz ________ 0.3 dB ↓...
Page 227 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 51 MHz 23 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 228 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 229 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 6 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB...
Page 230 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 231 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq. Level 40 GHz 18 dB - 0.8 ________ 15 dB - 0.8 ________ 10 dB...
Page 232 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (without Opt. Gen Att) Reference –10 dBm Freq.
Page 233 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 51 MHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 234 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 235 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 2.1 GHz 22 dB ________ 20 dB ________ 15 dB ________ 10 dB...
Page 236 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 237 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 6 GHz 22 dB ________ 19 dB ________ 15 dB ________ 10 dB...
Page 238 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 239 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 16 GHz 21 dB ________ 18 dB ________ 10 dB ________ 5 dB...
Page 240 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 241 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 32 GHz 17 dB ________ 15 dB ________ 10 dB ________ 5 dB...
Page 242 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq.
Page 243 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm Freq. Level 55 GHz 12 dB ________ 10 dB ________ 5 dB ________ -5 dB...
Page 244 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity (with Opt. Gen Atten) Reference –10 dBm 64 GHz 11 dB ________...
Page 245 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.2 dB Power measurement uncertainty Test frequency: 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________ 500 MHz ________...
Page 246 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.3 dB Power measurement uncertainty Test frequency: 25.0 GHz ________ 26.0 GHz ________ 27.0 GHz...
Page 247 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 50 MHz 15 dB -0.1 ________ 10 dB -0.1 ________ 5 dB -0.1 ________ -5 dB...
Page 248 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Freq. Level 24 GHz 10 dB -0.3 ________...
Page 249 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (without opt. gen/rec atten. and dir. gen/rec access Test frequency –105 – 100.12 MHz ________ –105 – 200.12 MHz ________ –110 –...
Page 250 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level without opt. gen/rec atten. and dir. gen/rec access Test frequency –105 –...
Page 251 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. Test frequency –104 – 100.12 MHz ________ –104 – 200.12 MHz ________ –109 – 500.12 MHz ________ –109...
Page 252 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. rec atten.) Test frequency –102 –...
Page 253 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. dir. gen/rec access) Test frequency –104 – 100.12 MHz ________ –104 – 200.12 MHz ________ –109 –...
Page 254 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level with opt. dir. gen/rec access) Test frequency –102 –...
Page 255 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. and dir. gen/rec access) Test frequency –103 – 100.12 MHz ________ –103 – 200.12 MHz ________ –108 –...
Page 256 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level (with opt. rec atten. and dir. gen/rec access) Test frequency –99 –...
Page 257 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 Matching (raw) Test frequency 10 MHz ________ 1 dB 20 MHz ________ 1 dB 50 MHz ________ 1 dB 100 MHz ________ 0.4 dB ↓...
Page 258 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 0.4 dB Matching (raw) Test frequency 33.0 GHz ________ 34.0 GHz ________ 35.0 GHz ________...
Page 259 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without option step attenuator and without option direct generator/receiver access) Test frequency: – 10.0 MHz ________ –...
Page 260 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (without option step attenuator and without option direct generator/receiver access) Test frequency:...
Page 261 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator or receiver step attenuator) Test frequency: – 10.0 MHz ________ – 20.0 MHz ________ –...
Page 262 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option generator or receiver step attenuator) Test frequency: –...
Page 263 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with options gen. and rec. step attenuator or with opt. direct gen./rec. access) Test frequency: – 10.0 MHz ________ –...
Page 264 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with options gen. and rec. step attenuator or with opt.
Page 265 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with option gen. or rec. step attenuator and with opt. direct gen./rec. access) Test frequency: – 10.0 MHz ________ –...
Page 266 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with options gen. or rec. step attenuator and with opt.
Page 267 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with options gen. and rec. step attenuator and with opt. direct gen./rec. access) Test frequency: – 10.0 MHz ________ –...
Page 268 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range (with options gen. and rec. step attenuator and with opt.
Page 269 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 5 dB 10 MHz ________ 1.0 GHz ________ 2.0 GHz ________ 4.0 GHz ________...
Page 270 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 271 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten. Frequ. 20 dB 38.0 GHz ________ 40.0 GHz ________ 42.0 GHz ________ 44.0 GHz ________...
Page 272 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.14 0.1 dB Receiver Step Atten. Attenuation Accuracy Reference 0 dB Atten.
Page 273 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5 -300 mV - 10.0 ________ + 10.0 -10 mV - 2.75 ________...
Page 274 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test ® Performance Test Report R&S ZVA80BU ROHDE&SCHWARZ Vector Network Analyzer, 50 GHz, 4 ports 1312.6508K02 ® R&S ZVA80BU Serial number: Date: Person responsible: Signature: Parameter Reference Min.
Page 275 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 1 dB Harmonics Source power +10dBm Freq. Harmonics 50 MHz 100 MHz ________ 150 MHz ________ 100 MHz 200 MHz ________ 300 MHz ________ 200 MHz 400 MHz...
Page 276 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.5 2 dB Harmonics Freq. Harmonics 5.04 GHz 10.08 GHz ________ 15.12 GHz ________ 5.05 GHz 10.10 GHz...
Page 277 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Test frequency 10 MHz ________ 20 MHz ________ 50 MHz ________ 100 MHz ________ 200 MHz ________...
Page 278 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.7 0.2 dB Power Accuracy Output power -10 dBm Port1 and port2 only Test frequency 21 GHz - 0.8...
Page 279 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity Reference –10 dBm Freq. Level 50 MHz 23 dB ________ 20 dB ________ 15 dB ________ 10 dB ________ 5 dB ________...
Page 280 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity Reference –10 dBm Freq. Level 3 GHz 23 dB - 0.8 ________...
Page 281 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity Reference –10 dBm Freq. Level 10 GHz 23 dB - 0.8 ________ 20 dB - 0.8 ________ 15 dB - 0.8 ________...
Page 282 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity Reference –10 dBm Port1 and port2 only Freq.
Page 283 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.8 0.1 dB Power linearity Reference –10 dBm Freq. Level 50 GHz 16 dB - 0.8 ________ 15 dB - 0.8 ________ 10 dB - 0.8 ________...
Page 284 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.3 dB Power measurement uncertainty Output power -10 dBm Port1 and Port2 only Test frequency: 10 MHz ________...
Page 285 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.9 0.3 dB Power measurement uncertainty Output power -10 dBm Port1 and Port2 only Test frequency: 24.0 GHz ________ 25.0 GHz ________ 26.0 GHz ________ 27.0 GHz...
Page 286 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port__ (REF IN) Page 1.9 0.3 dB Power measurement uncertainty Output power -10 dBm Port3 and Port4 only Test frequency: 50 MHz...
Page 287 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port__ (MEAS IN) Page 1.9 0.3 dB Power measurement uncertainty Output power -20 dBm Port3 and Port4 only Test frequency: 50 MHz ________ 100 MHz ________ 200 MHz ________...
Page 288 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Port1 and Port2 only Freq.
Page 289 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.10 0.01 dB Input linearity Reference –10 dBm Port1 and Port2 only Freq. Level 24 GHz 10 dB -0.3 ________ 5 dB -0.1 ________ -5 dB...
Page 290 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ (REF IN) Page 1.10 0.01 dB Input linearity Reference –20 dBm Port3 and Port4 only Freq.
Page 291 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ (MEAS IN) Page 1.10 0.01 dB Input linearity Reference –30 dBm Port3 and Port4 only Freq. Level 50 MHz 20 dB -0.1 ________ 15 dB -0.1 ________...
Page 292 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level Test frequency –100 – 100.0 MHz ________ –100 –...
Page 293 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.11 Input noise level Port1 and port2 only Test frequency –115 – 21.0 GHz ________ –115 – 22.0 GHz ________ –115 – 23.0 GHz ________ –115...
Page 294 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 1 dB Matching (raw) Test frequency 10 MHz ________ 20 MHz ________ 50 MHz ________...
Page 295 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ Page 1.12 1 dB Matching (raw) Test frequency 33.0 GHz ________ 34.0 GHz ________ 35.0 GHz ________ 36.0 GHz ________ 37.0 GHz ________ 38.0 GHz ________ 39.0 GHz...
Page 296 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range Port1 and port2 only Test frequency: –...
Page 297 Performance Test R&S ZVA Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Port __ to Port ___ Page 1.13 Dynamic range Port1 and port2 only Test frequency: – 21.0 GHz ________ – 22.0 GHz ________ – 23.0 GHz ________ –...
Page 298 FSQ FVREF "Überschrift 2" \* MERGEFORMAT Fehler! Form atvorlage nicht definiert. R&S ZVA Performance Test Parameter Reference Min. value Actual value Max. value Unit Measurement uncertainty Accuracy Page 1.15 1 mV DC meas 1 V Pos. Input -1000 m V - 27.5 ________ + 27.5...
Page 299 R&S ZVA Alignment Contents - Chapter 2 "Alignment" 2 Alignment ............................2.1 Service Menu ........................... 2.1 Manual Alignment and Recording Correction Values ..............2.2 Test Equipment ........................2.2 Aligning the Frequency Accuracy ..................... 2.4 Aligning the DC Inputs ......................2.5 Correction Value Recording and Factory System Error Calibration .........
Page 300: Alignment
R&S ZVA Alignment 2 Alignment This chapter describes the alignment of the frequency reference and the recording of correction data after a board has been replaced. The following manual alignments or corrections can be performed on the ZVA:  Alignment of the 10-MHz reference oscillator which determines the frequency accuracy of the ZVA . ...
Page 301 R&S SML01 1090.3000.11 Recording correction Power = -40 dBm to 10 dBm R&S SMR40 1104.0002.40 values with Option on R&S ZVA8, R&S R&S SMR-B17 1104.5233.02 ZVA24 and R&S ZVA40 Signal generator 40 GHz to 67 GHz, SMR50 1134.9008.50 Recording correction...
Page 302 N, 50 , DC to 18 GHz Calibration kit R&S ZV-Z270 5011.6536.02 Input linearity Matching port 1 to port 4 Input noise level on R&S ZVA8 3.5mm, 50 , DC to 26.5 GHz Calibration kit R&S ZV-Z235 5011.6542.02 Recording correction values on R&S ZVA24...
Page 303: Aligning The Frequency Accuracy
Alignment R&S ZVA Aligning the Frequency Accuracy Test equipment Spectrum analyzer (section "Test Equipment", item 1): Error <1x10 Test setup: Connect the spectrum analyzer to the 10-MHz reference output at the rear of the ZVA. ZVA settings: Select internal reference MENU : System: Reference Internal Spectrum analyzer settings: Center frequency: 10 MHz...
Page 304: Aligning The Dc Inputs
R&S ZVA Alignment Writing data to the hard disk:  Change to computer application Note: Do not terminate the NWA application!  Select path C:\Documents and Settings\AllUsers\ApplicationData\Rohde&Schwarz\NWA\data\eeprom\ FR\config.ini  Transform data format to decimal  Write decimal data to [ TUNE ] 128_PRETUNE = …...
Page 305: Correction Value Recording And Factory System Error Calibration
Alignment R&S ZVA The values that have been obtained in this way are now written to the hard disk using the Service Functions described below and then transferred to the EEprom of network controller1. Example illustrating DC Meas 1 V: When +1 V is applied, V 1 = 1.023 V is displayed by the ZVA;...
Page 306: Installation Of The Alignment Program
R&S ZVA Alignment Installation of the Alignment Program Install the program by double-clicking the setup.exe file. If you install the program for the second time the install shield will only remove the old installation. You will have to start the setup.exe again to perform the installation. The tool has been tested with Windows XP and Windows NT.
Page 307 Replacing Receiver Board (ZVA8 only) ..................3.59 Replacing Generator and Receiver Cover (ZVA8 only) ............3.60 Replacing the Inner Conductor of a Port Connector (ZVA8 only) ..........3.61 Replacing the Bridge Unit (ZVA8 only) ..................3.62 Replacing a Reflectometer RM24 A510 to 540 ................3.63 Replacing a Reflectometer RM40 and RM50 A510 to 540 ............3.64...
Page 308 Repairs R&S ZVA Assembly Instructions for R&S ZVAB-B14 ................3.74 Troubleshooting ...........................3.78 Test Equipment and Accessories .....................3.79 Troubleshooting - Power-up Problems ..................3.80 Troubleshooting Boot Problems ....................3.81 Troubleshooting - Boot Error ....................3.82 Troubleshooting with the Selftest .....................3.83 Checking the Temperature Sensors ..................3.88 Service Functions ........................3.89 Determining which Boards are defective ..................3.93 Board Test ..........................3.94...
Page 309: Repairs
R&S ZVA Repairs 3 Repairs This chapter describes the ZVA’s construction, simple procedures for repairs, troubleshooting and board replacement. A selftest which checks the diagnostic voltages of the board and indicates limit violations is provided for troubleshooting and diagnostics. Chapter 4 of this service manual describes the installation of options and firmware updates. Instrument Construction and Function Description The ZVA’s construction is shown schematically by the following block diagrams and the exploded drawings (see Chapter 5).
Page 310: Block Diagram
MEAS PORT 2 ATTENUATOR FREQUENCY OPTION SYNTHESIZER REFERENCE OCXO ZVAB-B4 POWER SUPPLY Fig. 3-1 Block diagram of the ZVA8, ZVA24, ZVA40, ZVA50 and ZVA67 two ports With option direct generator/receiver access on port1, options generator and receiver attenuator on port2. 1177.5333.02 E-11...
Page 311 MEAS PORT 4 POWER SUPPLY Fig. 3-2 Block diagram of the ZVA8, ZVA24, ZVA40, ZVA50 and ZVA67 four ports With option generator/receiver attenuator on port1, option direct generator/receiver access on port2, options generator/receiver attenuator and direct generator/receiver access on port3.
Page 312 Repairs R&S ZVA 10 MHz to 50G (67G w. ZVA110) DIPLEXER COUPLER PORT 1 1mm male PORT 1 GENERATOR PORT PORT 1 15 to 21MHz RECEIVER REF PORT 1 RECEIVER 10 MHz to 50G (67G w. ZVA110) MEAS PORT 1 10 MHz to 50G (67G w.
Page 313 R&S ZVA Repairs ZVA24/40/50/67 with -B16 and –K8 Option SOURCE MEAS PORT 3 MEAS SOURCE MEAS PORT 1 SOURCE ZVA-Zxx SOURCE 50 GHz to 75 GHz ZVA-Z75 60 GHz to 90 GHz ZVA-Z90E 75 GHz to 110 GHz ZVA-Z110/-Z110E 90 GHz to 140 GHz ZVA-Z140 110 GHz to 170 GHz ZVA-Z170...
Page 314: Description Of The Block Diagram
Description of the Block Diagram The block diagrams shown in Fig. 3-1 and Fig. 3-2 apply to the R&S ZVA8, the R&S ZVA24, the R&S ZVA40, R&S ZVA50 and the R&S ZVA67 two-ports and four-ports. Fig. 3-3 shows the R&S ZVA80 and the R&S ZV110, Fig.
Page 315 The following sections describe the various boards in greater detail. Reflectometer ZVA8 A reflectometer board comprising a bridge unit, a generator section (Generator) and a receiver section (Receiver) is incorporated in every port (Port1 to 4). These three components are screwed together to form a compact unit.
Page 316 Repairs R&S ZVA Range Basic frequency range Doubler 1 Frequency Doubler 2 Output frequency from synthesizer 10 MHz to 8.0 GHz 10 MHz to 8.0 GHz 10 MHz to 8.0 GHz 4 GHz to 5.05 GHz 8.0 GHz to 10.1 GHz 8.0 GHz to 10.1 GHz 5.05 GHz to 6.35 GHz 10.1 GHz to 12.7 GHz...
Page 317 R&S ZVA Repairs Range Basic frequency range Doubler 1 Frequency Doubler 2 Output frequency from synthesizer 10 MHz to 8.0 GHz 10 MHz to 8.0 GHz 10 MHz to 8.0 GHz 4 GHz to 5.05 GHz 8.0 GHz to 10.1 GHz 8.0 GHz to 10.1 GHz 5.05 GHz to 6.35 GHz 10.1 GHz to 12.7 GHz...
Page 318 Repairs R&S ZVA Reflectometer Unit ZVA50 A reflectometer unit comprising a coupler, a generator section (Driver24 and Doubler50) and a receiver section (Receiver50) is incorporated in every port (Port1 to 4). The generator and the receiver are screwed together to form a compact unit. Coupler Unit The coupler contains a bias-T and two directional couplers.
Page 319 R&S ZVA Repairs The LO signal section contains a frequency doubler for the range 8 GHz to 16 GHz, a switchable filter unit, a second frequency doubler with filter for the range 16 GHz to 24 GHz and a broadband amplifier for the frequency range 30 MHz to 24 GHz.
Page 320 Repairs R&S ZVA Doubler67 The doubler contains a frequency doubler for the range 40 GHz to 70 GHz, a switchable filter unit and a broadband amplifier for the range 10 MHz to 70 GHz. Range Frequency range from Doubler Output frequency driver42 10 MHz to 41.6 GHz 10 MHz to 41.6 GHz...
Page 321 R&S ZVA Repairs Converter80 The converter Unit contains a generator and a reflectometer section for the frequency range 50 GHz to 80 GHz. The generator path contains multipliers (x6) and an amplifier. The reflectometer section contains a coupler to separate the signal going to the DUT (Ref) from the signal coming from the DUT (Meas) and two mixers to convert the Ref and Meas signals to an IF signal (279 MHz).
Page 322 Repairs R&S ZVA Converter Frequency range Generator multiplier Harmonic mixing ZVA-Z75 50 to 75 ZVA-Z90E 60 to 90 ZVA-Z110/-Z110E 75 to 110 ZVA-Z140 90 to 140 ZVA-Z170 110 to 170 ZVA-Z220 140 to 220 ZVA-Z325 220 to 325 ZVA-Z500 325 to 500 Network controller The network controller comprises two boards, the netcon analog and the netcon digital which are screwed together to form a single unit.
Page 323 R&S ZVA Repairs Frequency reference The frequency reference board generates the highly stable and spectrally pure clock signals, required by the ZVA, which can be phase-locked to external synchronisation signals. The various function blocks are: The 128 MHz VCXO (voltage-controlled crystal oscillator) which generates a stable, low-noise reference frequency for the synthesisers, for the A/D converters and for digital signal processing.
Page 324 Repairs R&S ZVA Synthesizers The source signals for the generator signals associated with each port and the LO signal for the mixers on the receiver boards for each of the reflectometers are generated on the synthesizer board. One or two individual synthesizers are accommodated on a synthesizer board. There are three different synthesizer types used in the ZVA models: Synthesizer-LS to Reflectometer 1...
Page 325 R&S ZVA Repairs Synthesizer-DS to Reflectometer 1 (GEN) Synthesizer 9 kHz to 8GHz to Reflectometer 2 (GEN) to Reflectometer 3 (GEN) Synthesizer 9 kHz to 8GHz to Reflectometer 4 (GEN) 1177.5333.02 3.17 E-11...
Page 326 Repairs R&S ZVA Synthesizer-LO to Reflectometer 1 (LO) to Reflectometer 2 (LO) Synthesizer 15.625 MHz to 8025 MHz to Reflectometer 3 (LO) to Reflectometer 4 (LO) 1177.5333.02 3.18 E-11...
Page 327 R&S ZVA Repairs Synthesizer-12 LO Synthesizer 30 MHz to 12 GHz LO Reflectometer 1 Synthesizer 30 MHz to 12 GHz LO Reflectometer 2 1177.5333.02 3.19 E-11...
Page 328 Repairs R&S ZVA Synthesizer-12 SO Synthesizer GEN Reflectometer 1 10 MHz to 12 GHz Synthesizer GEN Reflectometer 2 10 MHz to 12 GHz 1177.5333.02 3.20 E-11...
Page 329 R&S ZVA Repairs Synthesizer-12-4SO Synthesizer GEN Reflectometer 1 10 MHz to 12 GHz Synthesizer GEN Reflectometer 3 10 MHz to 12 GHz Synthesizer 10 MHz to 12 GHz GEN Reflectometer 2 Synthesizer GEN Reflectometer 4 10 MHz to 12 GHz 1177.5333.02 3.21 E-11...
Page 330 Repairs R&S ZVA Synthesizer-12-4LO LO Reflectometer 1 Synthesizer 30 MHz to 12 GHz LO Reflectometer 3 LO Reflectometer 2 LO Reflectometer 4 Synthesizer 30 MHz to 12 GHz 1177.5333.02 3.22 E-11...
Page 331 (in place of (in place of 1302.4025.02 1302.4025.20 1302.5180.02 1302.4248.02 1302.4248.20 from 04/2008) from 04/2008) from 05/2008) from 05/2008) from 05/2008) ZVA8 two port 2x SRC, 2x LO -------- -------- -------- -------- ZVA8 four port -------- -------- 4x SRC 4x LO --------...
Page 332 Repairs R&S ZVA Front unit The front unit comprises a mounting plate on which the LCD, the flexible switch board and key pad, and the tachogenerator are accommodated. The front module controller is mounted in the controller tray in the instrument frame. LC display All results and setting information the user requires is displayed on the colour LCD.
Page 333  for an SPI-EEPROM on the motherboard  Furthermore, the software can detect which device (ZVA8 or ZVA24) is present using the MBCON. In addition to the voltages delivered by the power supply, +28 V is produced from +12 V on the motherboard by means of a boosting switching regulator.
Page 334: Board Replacement
1164.0250 sheet 1 to 5 (ZVA8 Option B16) 1164.0267 sheet 1 to 5 (ZVA24 Option B16) 1164.0215 sheet 1 to 5 (ZVA8 Option B21 to B24 and B31 to B34) 1164.0221 sheet 1 to 5 (ZVA24 Option B21 to B24 and B31 to B34) 1164.0409 sheet 1 to 8 (ZVA40 Option B21 to B24 and B31 to B34)
Page 335: Board Overview
Reflectometer Check error log Record correction values System error calibration Input connector port 1 to 4 Check error log System error calibration (ZVA8 only) Bridge unit Check error log Record correction values (ZVA8 only) System error calibration Coupler unit Check error log...
Page 336: Replacing Front Module Controller A90
Remove the 2 countersunk screws (610) in the top of the front frame and the 2 in the bottom.  ZVA8: Remove the countersunk screws (168) (2 ), (153), (154), (163), (164)  Pull out the front unit together with the keyboard and display (600, 604) forwards.
Page 337 R&S ZVA Repairs Risk of damage Do not insert the tool too far into the slot; only apply pressure to the board. To ease the board out, apply light pressure to each and every slot. Do not bend the board. Fig.
Page 338 Repairs R&S ZVA  Re-insert the front unit into the instrument and secure to the front frame with 4 countersunk screws. (610).  Fit the following countersunk screws (168) (2 ), (153), (154), (163), (164). Avoid trapping cables and ensure cabling is tidy. ...
Page 339: Replacing Front Modul Controller Fmr7 By Fmr9
R&S ZVA Repairs Replacing Front Modul Controller FMR7 by FMR9 The swap from the Frontmodul FMR7/x to FMR9/6 may only implemented by an authorized service center. Saving customers data  It’s recommended asking the customer to save all data from the instrument for later recovery. ...
Page 340 Repairs R&S ZVA Installing the new front module controller and putting the instrument back together  Disconnect all cables from the FMR7/x unit (2*LAN, USB, SATA), remember the position from the 2 LAN cables, they must be connected with the same connector like the FMR7/x unit ...
Page 341 R&S ZVA Repairs Putting into operation Firmware  Perform an Analyzer BIOS update for FMR9 (see https://gloris.rohdeschwarz.com, Document link: Firm- \ Software)  Perform a HD recovery using ZVABT Recovery CD FMR9 After reboot, switch analyzer application screen to windows screen. Use windows explorer to browse and search the batch file to configure the display type.
Page 342: Replacing Front Modul Controller Fmr7/Fmr9 By Fmr11
Repairs R&S ZVA Replacing Front Modul Controller FMR7/FMR9 by FMR11 The swap from the Frontmodul FMR7/x and FMR9/6 to FMR11/6 may only implemented by an authorized service center. Saving customers data  It’s recommended asking the customer to save all data from the instrument for later recovery. ...
Page 343 R&S ZVA Repairs Change USB Board  For disassembling see Repacing USB Board A40 (Drawing 1145.1390.01)  Remove the countersunk screws(1070)  Remove USB board (1050), disconnect cable from USB board  Reinstall new USB board (1305.7483.02) in reverse sequence Modify Display Connector SVGA NEC-DSN ...
Page 344 Repairs R&S ZVA Installing the new front module controller and putting the instrument back together  Disconnect all cables from the FMR7/x unit (2*LAN, USB, SATA), remember the position from the 2 LAN cables, they must be connected with the same connector like the FMR7/x unit ...
Page 345 R&S ZVA Repairs Putting into operation Firmware  Perform an Analyzer BIOS update for FMR11/6 (see https://gloris.rohdeschwarz.com, Document link: Firm- \ Software)  Perform a HD recovery using ZVABT Recovery Stick FMR11  Download from http://www.rsd.de/ Select Downloads  Select your product: "ZVA" and mark "Firmware"  Go ...
Page 346 Repairs R&S ZVA  Example:  3.5.0.6.PART1.PARTNUMBER.1312.7779.02  3.5.0.6.PART1.PRODUCTINDEX.01.00  3.5.0.6.PART1.SN.100001  3.5.0.6.PART1.PRODUCTDATE.2014-12-17  3.5.0.6.PART1.NAME.FMR11/6  3.5.0.2  Close and restart the firmware  Check the hardware info about the new part FMR11/6 Set the computer name  Go to Start Menu / Control Panel / System and Security / System / Computer Name - Change settings / Change.
Page 347: Replacing The Lithium Battery On The Front Module Controller
Remove the 2 countersunk screws (610) in the top of the front frame and the 2 in the bottom.  ZVA8: Remove the countersunk screws (168) (2 ), (153), (154), (163), (164)  Pull out the front unit together with the keyboard and display (600, 604) forwards.
Page 348: Removing The Lithium Battery
Repairs R&S ZVA Removing the lithium battery  Carefully lift up and pull out the battery. Note: Lithium battery 3.4 V (dia. 20 mm * 3 mm) R&S Item No. 0858.2049.00 Front Module Controller Typ FMR6 Connector for rotary pulse generator Contact side of switching foil (keyboard) up Battery LAN 1 LAN 2...
Page 349 R&S ZVA Repairs Putting into operation  Connect the mains cable, turn on at the power switch and press the ON key.  Select Service Level 2 (see Service Functions).  When the instrument has been started, check the protocol file for errors: [ INFO : Error Log ] 1177.5333.02 3.41...
Page 350: Replacing Hard Disk A60 (Not With Fmr9)
Repairs R&S ZVA Replacing Hard Disk A60 (not with FMR9) (See Chapter 5, Spare Parts List, Item 710, and drawings 1145.1110 and 1145.1310) The hard disk is located between the controller tray and the boards. The spare disk is delivered with the software pre-installed.
Page 351: Replacing Lcd A70 And The Dc/Ac Converter
 Remove the 2 countersunk screws (610) in the top of the front frame and the 2 in the bottom.  ZVA8: Remove the countersunk screws (168) (2 ), (153), (154), (163), (164)  Pull out the front unit together with the keyboard and display (600, 604) forwards.
Page 352 Repairs R&S ZVA Removing the LCD  Disconnect the display cable (945) by cutting through the adhesive label(946).  Remove the display connector (1020) after you have undone the two screws (1040).  Disconnect the display cable (1030) at the display (910). ...
Page 353: Replacing Flexible Switch Board (Keyboard) A16 / Key Pad A15
Remove the 2 countersunk screws (610) in the top of the front frame and the 2 in the bottom.  ZVA8: Remove the countersunk screws (168) (2 ), (153), (154), (163), (164)  Pull out the front unit together with the keyboard and display (600, 604) forwards and place it with the key-side on top of the instrument.
Page 354 Repairs R&S ZVA Removing the flexible switch board (keyboard) / key pad  Place the front unit with the key-side upwards on a clean surface.  Remove knob (990) from the tachogenerator.  Undo the 10 countersunk screws (890) and remove the keyboard frame (800, 805). ...
Page 355 R&S ZVA Repairs Avoid trapping cables and ensure cabling is tidy.  Replace the front cover (300, 303, 306, 310, 313, 316) and secure with the countersunk screw (390).  Refit the 2 front handles (410) using 4 screws.  Fit the termination and the 3.5mm connection cables (only with option ZVAx-B16). ...
Page 356: Replacing The Front Cover
Repairs R&S ZVA Replacing the Front Cover (See Chapter 5, Spare Parts List, Items 300, 306, 310, 316, 320, 321, 326, 327, 330, 334, 620, 630 and drawings 1145.1110, 1305.7002, 1312.6508) The front cover is the outermost front panel with lettering. Each instrument type has its own front cover. ...
Page 357: Replacing Disk Drive A30
R&S ZVA Repairs Replacing Disk Drive A30 (See Chapter 5, Spare Parts List, Item 670 and drawings 1145.1110 and 1145.1310) Opening the instrument and removing the disk drive  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 358: Replacing Usb Board A40
Remove the 2 countersunk screws (610) in the top of the front frame and the 2 in the bottom.  ZVA8: Remove the countersunk screws (168) (2 ), (153), (154), (163), (164).  Pull out the front unit together with the keyboard and display (600, 604) forwards and place it with the key-side on top of the instrument.
Page 359: Replacing Power Supply A20
R&S ZVA Repairs Replacing Power Supply A20 (See Chapter 5, Spare Parts List, Items 790 and drawings 1145.1110, 1145.1290, 1145.1310) The power supply is installed at the rear of the instrument frame. Removing the power supply  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) towards the rear.
Page 360: Replacing Fuse Board A21
Repairs R&S ZVA Replacing Fuse board A21 (See Chapter 5, Spare Parts List, Item 735, and drawings 1145.1110, 1145.1290) The fuse board is installed on the left-hand side of the power supply. Removing the power supply and the fuse board ...
Page 361: Replacing A Fan
R&S ZVA Repairs Replacing a Fan (See Chapter 5, Spare Parts List, Item 15 and drawings 1145.1110, 1145.1310) The fans, three in all, are located behind the right-hand side panel. Opening the instrument and removing the fan  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 362: Replacing Motherboard A10
Repairs R&S ZVA Replacing Motherboard A10 (See Chapter 5, Spare Parts List, Item 510 and drawings 1145.1110, 1145.1310) The motherboard is located on the base of the instrument. N.B.: The motherboard can only be replaced at R&S service centers. Opening the instrument and removing the motherboard ...
Page 363 R&S ZVA Repairs Risk of damage When disconnecting cables, be especially careful with the cable to the keyboard. It is a foil cable and can only be removed when the locking device on the foil-cable connector is released.  Remove the front module controller (for instructions see “Replacing Front Module Controller A90“) ...
Page 364 Repairs R&S ZVA  Align the DC inputs (see Aligning the DC Inputs in chapter 2)  Write synthesizer mapping and shift data to the motherboard EPROM (see Correction Value Recording in chapter 2) 1177.5333.02 3.56 E-11...
Page 365: Replacing A Reflectometer Rm8 A510 To 540
R&S ZVA Repairs Replacing a Reflectometer RM8 A510 to 540 (See Chapter 5, Spare Parts List, Items 150, 160 and drawing 1145.1110) The boards are located under the motherboard. Opening the instrument and removing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 366: Replacing Generator Board (Zva8 Only)
Repairs R&S ZVA Replacing Generator Board (ZVA8 only) (See Chapter 5, Spare Parts List, Item 110 and drawing 1302.4960.08) Opening the instrument and removing the board  Remove the reflectometer (see chapter Replacing Reflectometer Board A510 to A540)  Remove the cover (130) ...
Page 367: Replacing Receiver Board (Zva8 Only)
R&S ZVA Repairs Replacing Receiver Board (ZVA8 only) (See Chapter 5, Spare Parts List, Item 120, 125 and drawing 1302.4960.08) Opening the instrument and removing the board  Remove the reflectometer (see chapter Replacing Reflectometer Board A510 to A540) ...
Page 368: Replacing Generator And Receiver Cover (Zva8 Only)
Repairs R&S ZVA Replacing Generator and Receiver Cover (ZVA8 only) (See Service Circular 10028 and Chapter 5, Spare Parts List, Items 130, 150 and drawing 1302.4960.08) Opening the instrument and removing the cover  Remove the reflectometer (see chapter Replacing Reflectometer Board A510 to A540) ...
Page 369: Replacing The Inner Conductor Of A Port Connector (Zva8 Only)
R&S ZVA Repairs Replacing the Inner Conductor of a Port Connector (ZVA8 only) (See Chapter 5, Spare Parts List, Item 110, and drawings 1145.1110, 1145.4177, 1145.3593) Opening the instrument and removing the reflectometer  Remove the Reflectometer (see chapter Replacing Reflectometer Board A510 to A540) Replacing the inner conductor ...
Page 370: Replacing The Bridge Unit (Zva8 Only)
Repairs R&S ZVA Replacing the Bridge Unit (ZVA8 only) (See Chapter 5, Spare Parts List, drawings 1145.1110, 1145.4177, Item 100) Opening the instrument and removing the reflectometer  Remove the Reflectometer (see chapter Replacing Reflectometer Board A510 to A540) Removing the bridge unit ...
Page 371: Replacing A Reflectometer Rm24 A510 To 540
R&S ZVA Repairs Replacing a Reflectometer RM24 A510 to 540 (See Chapter 5, Spare Parts List, Items 180, 190, 200 and drawings 1145.1110, 1145.4283) Opening the instrument and removing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 372: Replacing A Reflectometer Rm40 And Rm50 A510 To 540
Repairs R&S ZVA Replacing a Reflectometer RM40 and RM50 A510 to 540 (See Chapter 5, Spare Parts List, Items 209, 222, 230, 232 and drawings 1145.1110, 1145.4319, 1305.3413) Opening the instrument and removing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 373: Replacing A Reflectometer Rm67 A510 To 540
R&S ZVA Repairs Replacing a Reflectometer RM67 A510 to 540 (See Chapter 5, Spare Parts List, Items 300 and 350 and drawing 1305.7002) The boards are located under the motherboard. Opening the instrument and removing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 374: Replacing The Reflectometers On Zva80
Repairs R&S ZVA Replacing the Reflectometers on ZVA80-BU Port1 and port2: See Replacing a Reflectometer RM 40 and RM50 Port3 and port4: (See Chapter 5, drawing 1312.6508) (See Chapter 5, Spare Parts List, Item 100, and drawing 1166.1660) The boards are located under the motherboard. Opening the instrument and removing the board ...
Page 375: Replacing The Coupler Unit (Zva24, Zva40, Zva50, Zva80-Bu Port1 And Port2)
R&S ZVA Repairs Replacing the Coupler Unit (ZVA24, ZVA40, ZVA50, ZVA80-BU port1 and port2) (See Chapter 5, Spare Parts List, item 230 and drawing 1145.1110) Opening the instrument and removing the coupler  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 376 Repairs R&S ZVA Replacing the Coupler Unit (ZVA67) (See Chapter 5, Spare Parts List, item 245 and drawings 1305.7002 and 1305.6241) Opening the instrument and removing the coupler  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 377: Replacing The Test Set (Zva40 Only)
R&S ZVA Repairs Replacing the Test Set (ZVA40 only) N.B.: In case of defective Test Set please contact the Central Service in Munich. Replacing the Diplexer ZVA-ZD80 (ZVA80) N.B.: In case of defective Diplexer80 please contact the Central Service in Munich. Replacing the Diplexer ZVA-ZD110 (ZVA110) N.B.: In case of defective Diplexer110 please contact the Central Service in Munich.
Page 378: Replacing The Reflectometer Fan
 Undo the 4 holding screws (110,194) and remove the fan.  Insert the new fan (ZVA8: cable outlet to the outside, ZVA24: cable outlet to the inside).  Screw back the 4 screws (110, 194) and washers (120, 130, 192, 193).
Page 379: Replacing Network Controller Board A130, A140
R&S ZVA Repairs Replacing Network Controller Board A130, A140 (See Chapter 5, Spare Parts List, Items 100, 105 and drawing 1145.1010) The board is in the upper section of the instrument. Opening the instrument and removing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 380: Replacing Synthesizer Board A150, A160
Repairs R&S ZVA Replacing Synthesizer Board A150, A160 (See Chapter 5, Spare Parts List, Items 110, 112, 113, 115 and drawing 1145.1110) The board is located in the upper section of the instrument. N.B.: Synthesizers with part numbers 1145.xxxx or 1300.xxxx are no longer available. In case of defect please contact the Central Service in Munich.
Page 381: Replacing Frequency Reference Board A100
R&S ZVA Repairs Replacing Frequency Reference Board A100 (See Chapter 5, Spare Parts List, Item 120 and drawings 1145.1110, 1164.1770) Opening the instrument and replacing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and pull off the enclosure (400) backwards.
Page 382: Assembly Instructions For R&S Zvab-B14
Repairs R&S ZVA Assembly Instructions for R&S ZVAB-B14 Opening the instrument and installing the board  Turn off the instrument and disconnect from the mains, screw off the 4 rear-panel feet (460) and the clamp (405) and pull off the enclosure (400) backwards. ...
Page 383 R&S ZVA Repairs  Screw-fasten cable W245 (black) 1305.6335.00 and cable clamp. Cable clamp and shielding need to have contact to rear panel (photo:A1.2, A2, A3) A1.2 Rear Panel Version 2)  Remount Rear Panel 1177.5333.02 3.75 E-11...
Page 384 Repairs R&S ZVA  Fasten cable W245 (black) 1305.6335.00 to the fan and fix in place with cable binder (photo: A4, A5, A6) 1177.5333.02 3.76 E-11...
Page 385 Disassembly of test set  Remove R&S ZVA24 coupler port 2 if attenuator and B16 are installed.  Remove R&S ZVA8 reflectometer port 2  Remove R&S ZVA40/50/67 coupler port 2 if attenuator and B16 are installed.  Feed cable W245 (black) 1305.6335.00 through at the opening near motherboard (photo: A7, A8) und push it up.
Page 386: Troubleshooting
Repairs R&S ZVA Troubleshooting The instructions in this manual describe troubleshooting down to the board level. Any defective boards can then be replaced and the instrument put back into operation. A selftest which checks the board diagnostic voltages and displays limit violations is provided to facilitate troubleshooting and diagnosis. We recommend that you return your instrument to the technical specialists at an R&S service facility for board replacement and any further repairs that may be needed.
Page 387: Test Equipment And Accessories
R&S ZVA Repairs Test Equipment and Accessories Item. Instrument type Recommended features Recommend R&S Order Qty. ed model DC meter 0350.5315.02 1 Power supply 0 to 10 V FSUxx Spectrum analyzer Power meter (if FSU50 or FSU67 + Sensor not available) Power sensor 10 MHz to 67 GHz NRP-Z57...
Page 388: Troubleshooting - Power-Up Problems
Repairs R&S ZVA Troubleshooting - Power-up Problems  Fault: It is not possible to turn on the ZVA. Action Cause of fault / remedy Check mains switch on the rear panel Mains switch OFF: Turn on at mains switch.  Check LED is yellow (standby) LED does not come on: ...
Page 389: Troubleshooting Boot Problems
R&S ZVA Repairs Troubleshooting Boot Problems  Fault: ZVA does not start the measurement application. The first action the ZVA performs after power-up is booting BIOS for the processor. When the processor has been successfully initialised, the Windows XP start-up procedure begins. Then, the measurement application is loaded as an autostart program.
Page 390: Troubleshooting - Boot Error
Repairs R&S ZVA Troubleshooting - Boot Error If the message below appears on the screen when the boot procedure has been completed, Warning: Boot error occurred. For details browse Error Log file. the cause of the error can be found in the Error-Log file. Setup INFO Info...
Page 391: Troubleshooting With The Selftest
R&S ZVA Repairs Troubleshooting with the Selftest The selftest is used to check supply voltages to the boards, including voltages generated on the boards themselves. On the frequency reference board, two clock signals (128 MHz and ADC-CLK) are also measured. Starting the selftest: ...
Page 392 Repairs R&S ZVA Total selftest status: user mode ---PASSED--- Instrument Type: ZVA8 with 4 Ports Part Number: 1145.1110k10 Product ID: 01.00 Serial Number: 100124 IP Addresses IP Address: 0.0.0.0&nbs; Subnet Mask: 0.0.0.0 IP Address: 0.0.0.0 Subnet Mask: 0.0.0.0 IP Address: 127.0.0.1 (Localhost) Subnet Mask: 255.0.0.0...
Page 393 R&S ZVA Repairs Voltages Nd2 Test description Result State +5VA_ADC 2.250V 2.750V 2.484V PASSED +2.5VD_MDD1 1.125V 1.375V 1.260V PASSED +2.5VD_MDD2 1.125V 1.375V 1.260V PASSED +1.5VD_FCON 0.675V 0.825V 0.752V PASSED -5VA_ADC 2.250V 2.750V 2.460V PASSED DGND1 0.000V 0.200V 0.000V PASSED DGND2 0.000V 0.200V 0.000V...
Page 394 Repairs R&S ZVA Voltages Rm2 Test description Result State 0.000V 0.200V 0.000V PASSED 0.000V 0.200V 0.000V PASSED +5V SUPPLY 2.300V 2.700V 2.500V PASSED +10.5VA SUPPLY 2.300V 2.800V 2.576V PASSED +10.5VB SUPPLY 2.300V 2.800V 2.592V PASSED +12V FAN 2.000V 2.600V 2.204V PASSED +12V SUPPLY 2.000V...
Page 395 R&S ZVA Repairs Interpreting the Results of the Selftest Negative voltages are transformed into positive voltages by means of a positive voltage and a resistor network because the A/D converters that are used can handle only positive voltages. This is why an acceptable negative voltage may elicit a FAIL because the associated positive voltage is out of tolerance.
Page 396: Checking The Temperature Sensors
Repairs R&S ZVA Checking the Temperature Sensors Select Service Level 2 (see Service Functions). Setup INFO Info When the Hardware Info softkey is pressed information about the installed hardware, the results of temperature measurements and … are displayed. Hardware Info Selftest og…...
Page 397: Service Functions
R&S ZVA Repairs Service Functions The service functions allow you to examine particular circuit sections on specific boards or to make well-defined settings that would normally change automatically according to the state of the instrument (e.g. the IF). There are a number of service functions which, if used incorrectly, could cause the instrument to malfunction.
Page 398 Repairs R&S ZVA Service Function Structure Group Main ID Sub ID Function Address Data Group Applies to HW (boards) Boards Boards Main ID Sub ID 0: All boards 1: Network controller1 0: All board 1: PCI 2: ND 3: NA 2: Network controller2 5: Motherboard 9: Frequency reference...
Page 399 R&S ZVA Repairs Group 1: General Functions Functions Data Serv. Lev. Service function 0  Use disabled Enables/disables the peak detector and RMS 1.0.0.1.X detector independently of the model 1  Use enabled 0  Use disabled Enable/disables the arbitrary mode settings in 1.0.0.5.X the port configuration (e.g.
Page 400 Repairs R&S ZVA Motherboard Functions Service function Data Serv. lev. MB: Fan manual 2.5.0.11.1.X X= 0 to 5 MB: Fan automatic 2.5.0.11.0 MB:Read Temp 2.5.0.3.1 Front (NC) (addr.:205) MB: Read Temp 2.5.0.3.2 Rear (SY) (addr.: 204) MB: Read Temp 2.5.0.3.3 Back (PS) (addr.: 202) Frequency reference Functions...
Page 401: Determining Which Boards Are Defective
R&S ZVA Repairs Determining which Boards are defective The table below lists boards that are probably defective based on the faults that occurred during the performance test. Defective board Problem with: Probable Also possible Frequency accuracy Frequency reference SSB phase-noise Only one port Synthesizer1 All ports...
Page 402: Board Test
Repairs R&S ZVA Board Test When boards are being tested, internal sources are used whenever possible. This means that it is always assumed that the downstream board in the signal path is OK. If a clear fault is not present, the order of the board tests given below should always be followed.
Page 403 R&S ZVA Repairs Testing the frequency reference board (see Test Equipment)  Remove the board from the instrument.  Reinsert board and extension card.  Connect the output to be tested to the spectrum analyzer using an adapter cable and adapter SMA-N.
Page 404 Repairs R&S ZVA Testing the Synthesizer Board N.B.: Synthesizers with part numbers 1145.xxxx or 1300.xxxx are no longer available. In case of defect please contact the Central Service in Munich.  Disconnect source (or local) cable at the reflectometer (1 to 4, depending on which synthesizer section is to be tested).
Page 405 R&S ZVA Repairs Local Mod. 02 Frequency LO-Frequency Local Level 3rd harmonic (ZVA setting) (Spec analyzer (Mod. 02) harmonic setting) 300 kHz 17.812345 MHz +2 dBm to -15 dBm < -5 dBc < +2 dBc 100 MHz 117.512345 MHz +2 dBm to -15 dBm <...
Page 406 Repairs R&S ZVA Synthesizer-DS 1305.5539.xx Source 1 to 4 (set port1 to 4 active) Frequency Source Level 2nd harmonic 3rd harmonic (ZVA setting) 300 kHz +3 dBm to -5 dBm < -27 dBc < -30 dBc 100 MHz +3 dBm to -5 dBm <...
Page 407 R&S ZVA Repairs Synthesizer-LO 1305.5597.02 Local 1 to 4 (set port1 to 4 active) Frequency LO-Frequency Local Level (ZVA setting) (Spec analyzer harmonic harmonic setting) 300 kHz 17.812345 MHz 2 dBm to -15 dBm < -5 dBc < 2 dBc 100 MHz 117.512345 MHz 2 dBm to -15 dBm...
Page 408 Repairs R&S ZVA Synthesizer-12 SO Frequency Source Level 2nd harmonic 3rd harmonic (ZVA setting) 10 MHz +5 dBm to -7 dBm ----- ----- 100 MHz +5 dBm to -7 dBm ----- ----- 300 MHz +5 dBm to -5 dBm < -15 dBc <...
Page 409 R&S ZVA Repairs Synthesizer-12-4SO Frequency Source Level 2nd harmonic 3rd harmonic (ZVA setting) 10 MHz +5 dBm to -7 dBm ----- ----- 100 MHz +5 dBm to -7 dBm ----- ----- 300 MHz +5 dBm to -5 dBm < -15 dBc <...
Page 410 Repairs R&S ZVA Testing the Reflectometer RM8 Generator levels It is assumed that the synthesizer section (synthesizer1) associated with the reflectometer to be tested is OK.  Loosen cable W514 (GEN -> Bridge unit) at both ends and screw off at the generator output GEN. Note: When loosening, support the cable with a 7mm spanner ...
Page 411 R&S ZVA Repairs Frequency Output level Displayed level ax or bx 300 kHz -20 dBm 0 dBm 50 MHz -20 dBm 0 dBm 1 GHz -20 dBm 0 dBm 3 GHz -20 dBm 0 dBm 6 GHz -20 dBm 0 dBm 8 GHz -20 dBm 0 dBm...
Page 412 Repairs R&S ZVA Method 2: The receive section of the associated reflectometer is OK.  Loosen cable W514 (GEN -> Bridge unit) at both ends and screw off at the bridge unit. N.B.: When loosening, support the cable with a 7mm spanner ...
Page 413 R&S ZVA Repairs Bridge Directivity The following is assumed:  The generator and receiver sections of the reflectometer associated with the bridge unit are  Perform a sweep from 300 kHz to 8 GHz, measure Ratio bx/ax Source Portx  Screw the SHORT from a N-calibration kit to the port connector, save measured values (Data -> Mem).
Page 414 Repairs R&S ZVA Testing the Reflectometer RM24 Generator levels It is assumed that the synthesizer section (synthesizer1) associated with the reflectometer to be tested is OK.  Loosen cable W514 (GEN -> coupler unit) at both ends and screw off at the generator output GEN. ...
Page 415 R&S ZVA Repairs Frequency Output level Displayed level ax or bx +20 dBm  3 dB 10 MHz -30 dBm +5 dBm  3 dB 100 MHz -30 dBm -5 dBm  3 dB 1 GHz -20 dBm -10 dBm  3 dB 2.5 GHz -20 dBm -10 dBm ...
Page 416 Repairs R&S ZVA Frequency Level Output level MEAS Output level REF -50 dBm  3 dB -47 dBm  3 dB 10 MHz 0 dBm -35 dBm  3 dB -32 dBm  3 dB 100 MHz 0 dBm -15 dBm  3 dB -11 dBm ...
Page 417 R&S ZVA Repairs Coupler Directivity The following is assumed:  The generator and receiver sections of the reflectometer associated with the coupler unit are  Perform a sweep from 10 MHz to 24 GHz, measure Ratio bx/ax Source Portx  Screw the SHORT from the calibration kit to the port connector, save measured values (Data -> Mem).
Page 418 Repairs R&S ZVA Testing the Reflectometer RM44 and RM50 Generator levels It is assumed that the synthesizer section (synthesizer1) associated with the reflectometer to be tested is OK.  Loosen cable W514A (GEN -> coupler unit) or W512 (GEN -> attenuator) at both ends and screw off at the generator output GEN.
Page 419 R&S ZVA Repairs  Loosen the cable to the receiver input MEAS (X6) and the cable to the receiver input REF (X5) at both ends and screw off at the receiver inputs.  Connect the receiver input (MEAS or REF) to a functioning instrument port using the K-cable (ZVA40) or V-cable (ZVA50).
Page 420 Repairs R&S ZVA  Loosen cable at coupler MEAS_OUT and at coupler REF_OUT at both ends and disconnect at the coupler.  Connect the coupler output (MEAS = connector X3 or REF = connector X4) to a functioning port using the K cable . Terminate the coupler output that is not used with an K-termination (V- termination).
Page 421 R&S ZVA Repairs  Screw the OPEN from the calibration kit to the port connector.  Select User Def Math : (lin Mag(Data) + (linMag(Mem2)) / 2 , activate Result is Wave Quantity  Select Math = User Def Frequency Level level ax and bx (ZVA40) level ax and bx (ZVA50)
Page 422 Repairs R&S ZVA Coupler Directivity The following is assumed:  The generator and receiver sections of the reflectometer associated with the coupler are OK.  Perform a sweep from 10 MHz to 40 GHz, measure Ratio bx/ax Source Portx  Screw the SHORT from the calibration kit to the port connector, save measured values (Data -> Mem).
Page 423 R&S ZVA Repairs Testing the Reflectometer RM67 Generator levels It is assumed that the synthesizer section (synthesizer1) associated with the reflectometer to be tested is OK.  Loosen cable W514A (GEN -> BIAS 67) or W512A (GEN -> attenuator) at both ends and screw off at the generator output GEN.
Page 424 Repairs R&S ZVA  Connect the receiver input (MEAS or REF) to a functioning instrument port using the V-cable.  Set the ZVA to the CW sweep mode.  Set the frequencies and output levels (check with power meter) for the port used for the measurement as indicated in the table and read off the level for the receiver to be tested (wave quantity ax or bx).
Page 425 R&S ZVA Repairs  Set the frequencies and levels listed in the table for the reflectometer associated with the coupler (port) and measure the level (wave quantity bx) at the port used for the measurement as follows:  Screw the SHORT from the calibration kit to the port connector, save measured values (Data -> Mem).
Page 426 Repairs R&S ZVA Frequency Level level ax and bx 10 MHz 0 dBm > -2 dBm 100 MHz 0 dBm > -2 dBm 1 GHz 0 dBm > -2 dBm 3 GHz 0 dBm > -2.1 dBm 8 GHz 0 dBm >...
Page 427 R&S ZVA Repairs Coupler Port Matching It is assumed that there is a functioning reflectometer in the instrument.  Loosen cables W514A (GEN -> coupler), W515A (coupler -> MEAS) and W518A (coupler -> REF) at both ends and unscrew at the coupler. ...
Page 428 Repairs R&S ZVA Receiver levels The following is assumed:  The LO synthesizer section (synthesizer1 mod. 20, synthesizer2) associated with the reflectometer to be tested is OK.  The network controller associated with the reflectometer to be tested is OK. ...
Page 429 R&S ZVA Repairs  Enter service function 2.21.2.18.17512345 (IF = 17.512345 MHz).  Disable level corrections with SF 2.21[..24].2.15.1 If the level displayed on the ZVA's screen is not within the range -4 dBm ± 2 dB, the board must be replaced.
Page 430 R&S ZVA Software Update / Installation of Options Contents - Chapter 4 "Software Update" 4 Software Update / Installation of Options ................ 4.1 Installing new ZVA Software ......................4.1 Installing Options ..........................4.2 1177.5333.02 I-4.1 E-11...
Page 431 R&S ZVA Software Update / Installation of Options Software Update / Installation of Options Chapter 4 provides information on updating software, restoring the operating system installation and installing options. Descriptions accompanying the software update or the options can be included in this folder as part of Chapter 4.
Page 432 Software Update / Installation of Options R&S ZVA Installing Options The following options can be fitted to the ZVA: Direct Generator/Receiver Access for ZVA8 with two ports R&S ZVA8-B16 1164.0209.08 for ZVA8 with four ports R&S ZVA8-B16 1164.0209.10 for ZVA24 with two ports R&S ZVA24-B16...
Page 433 1302.5450.02 for ZVA50 R&S ZVA50-B32 1305.5722.02 for ZVA67 R&S ZVA67-B32 1305.7125.02 Receiver Step Attenuator Port 3 for ZVA8 with four ports R&S ZVA8-B33 1164.0067.02 for ZVA24 with four ports R&S ZVA24-B33 1164.0167.02 for ZVA40 with four ports R&S ZVA40-B33 1302.5467.02 for ZVA50 with four ports R&S ZVA50-B33...
Page 434 Software Update / Installation of Options R&S ZVA Pulsed Measurements with increased recording time for 2-port R&S ZVA-B7 1164.1492.02 models Pulsed Measurements with increased recording time for 4-port R&S ZVA-B7 1164.1492.03 models Mixer Delay w/o LO Access R&S ZVA-K9 1311.3128.02 5 MHz Receiver Bandwidth R&S ZVA-K17 1164.1070.02...
Page 435 R&S ZVA Documents Contents - Chapter 5 "Documents" 5 Documents ......................5.1 Spare Parts ............................5.1 Available Power Cables......................5.1 Spare Parts List ..........................5.2 Mechanical Drawings ........................5.2 Circuit Diagrams ..........................5.37 Figures Tables Table 5-1 List of power cables available ................... 5.1 Table 5-2 List of all ZVA parts and spare parts .................
Page 436: Spare Parts
R&S ZVA Documents 5 Documents This chapter provides information on the ordering of spare parts and contains the spare parts list and the documents for the complete ZVA unit. Spare Parts The Stock Nos. necessary for ordering replacement parts and modules can be found in the component lists provided later in this chapter.
Page 437: Spare Parts List
Documents R&S ZVA Spare Parts List Mechanical Drawings 1177.5333.02 E-11...
Page 438: Table 5-2 List Of All Zva Parts And Spare Parts
List of ZVA parts including spare parts The ZVA is constructed in accordance with R&S Design 2000. Rackmount: 6E 1/1 T350 MOD. 22 Overall dimensions: B x H x T: 465.1 x 286.2 x 417.0 Accessories: 19'' Adapter ZZA-611, Stock No. 1096.3302.00 The recommended spare parts are marked with an x in the last column.
Page 439 VS 6900/ISR-M2.5X8-A2 0041.1653.00 ZM RM UNIT ZVA 8 1145.4177.02 A510 A520 Model 08 VS 6900/ISR-M2.5X6-A2 1148.3059.00 Model 08 ZM CABLE SET ZVA8 2PORT 1302.5050.08 Model 08 VS 965/ISR-M2.5X8-A4-PA 1148.3294.00 Model 08 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 Model 08 ZM RM UNIT ZVA 8GHz 1145.4177.02...
Page 440 Position Designation Stock No. Number Electrical Recommended Designation spare parts VS 965/ISR-M2.5X8-A4-PA 1148.3294.00 Model 10 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 Model 10 DW RF CABLE W509/A520 1145.3041.00 W509 Model 08 10 MZ EXT. ANALYZER MOUNT 1145.3058.00 Model 08 10 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 Model 08 10 ZN MOTHERB.
Page 441 Position Designation Stock No. Number Electrical Recommended Designation spare parts VS 6900/ISR-M2.5X6-A2 1148.3059.00 Model 40 42 43 45 48 50 52 MZ RM44 SUPPORT PLATE RM1-2 1302.5596.00 Model 40 42 43 45 48 50 52 VS 965ISR-M2.5X6-A4-PA 1148.3288.00 Model 40 42 43 45 48 50 52 VS 6900/ISR-M2.5X8-A2 0041.1653.00 Model 40 42 43 45 48 50 52...
Page 442 Position Designation Stock No. Number Electrical Recommended Designation spare parts ZM CABLE SET ZVA48 4PORT 1302.5050.48 Model 48 ZM RM UNIT ZVA 50 GHz 1305.3407.02 A510 A520 Model 52 ZM RM UNIT ZVA 50 GHz 1305.3407.03 A530 A540 Model 52 ZM CABLE SET ZVA50 4PORT 1302.5050.52 Model 52...
Page 443 Position Designation Stock No. Number Electrical Recommended Designation spare parts KB FRONT COVER ZVA 8 2PORT 1145.1555.00 Model 08 KB FRONT COVER ZVA 8 4PORT 1145.1503.00 Model 10 KB FRONT COVER ZVA24 2PORT 1145.2380.00 Model 24 KB FRONT COVER ZVA 24 4PORT 1145.1510.00 Model 26 KB FRONT COVER ZVA 24 4T...
Page 444 Position Designation Stock No. Number Electrical Recommended Designation spare parts FJ CAP 0114.1770.00 Model 24 40 43 50 FJ CAP 0114.1770.00 Model 26 28 42 45 48 52 DRAWING 1305.7002.01 (ZVA67 NETWORK ANALYZER) ZM FUNDAMENTAL UNIT ZVA 1145.1310.42 ZM FAN ZVB 1145.2200.00 E1 E2 E3 Mounted in frame 1145.1355.00...
Page 445 Position Designation Stock No. Number Electrical Recommended Designation spare parts VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 MZ RM44 SUPPORT PLATE RM1-2 1302.5596.00 VS 6900/ISR-M2.5X8-A2 0041.1653.00 VS 6900/ISR-M2.5X8-A2 0041.1653.00 VS 965/ISR-M3X10-A4-PA 1148.3320.00 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 ZM RM UNIT ZVA67 1305.6241.02 A510, A520 Model 02 04...
Page 446 Position Designation Stock No. Number Electrical Recommended Designation spare parts VS 6900/ISR-M3X6-A2 0041.1682.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 2XRJ45 COUPLER JACK STRAIGHT 1093.9122.00 X241, X242 SILICONE CORD 1130.0164.00 LAN CABLE WITH SPRING 1166.1819.00 W241, W242 IEC-BUS CABLE W21 1129.7252.00 WASHER DIN125-A3.2-A4 0082.4670.00 WAVE SPRING WASHER DIN137-A3-A2 0005.0296.00 VS DIN934-M3-A4...
Page 447 Position Designation Stock No. Number Electrical Recommended Designation spare parts FJ CAP 0114.1770.00 Model 02 04 FJ CAP 0114.1770.00 Model 04 ZB ACCESS. ZVA 1145.1149.00 DRAWING 1312.6750.01 (ZVA80 NETWORK ANALYZER) ZVA80 TOTAL SYSTEM LABEL 1311.7417.00 ZVA50 VECT. NETW: ANALYZER 4P 1145.1110.52 Model 03 ZVA80-BU...
Page 448 Position Designation Stock No. Number Electrical Recommended Designation spare parts VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 VS 6900/ISR-M2.5X8-A2 0041.1653.00 MZ RAIL CONTACT ZVB 8/20 1300.0874.00 MZ RM44 BLOWER ATTACHEMENT (in- 1302.5621.00 cluded in RM Unit) VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 MZ RM44 SUPPORT PLATE RM1-2 1302.5596.00 VS 6900/ISR-M2.5X8-A2 0041.1653.00...
Page 449 Position Designation Stock No. Number Electrical Recommended Designation spare parts IEC-BUS CABLE W21 1129.7252.00 WASHER DIN125-A3.2-A4 0082.4670.00 WAVE SPRING WASHER DIN137-A3-A2 0005.0296.00 VS DIN934-M3-A4 0016.4398.00 MP CAP 0570.5187.00 MP CAP 0344.4591.00 MZ TOP COVER ZVA 1145.1855.00 MZ BOTTOM COVER ZVA 1145.1955.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00...
Page 450 Position Designation Stock No. Number Electrical Recommended Designation spare parts GO ZVA-Z110E CONVERTER EL ATT 1307.7000.40 WR10 Mod 03 05 ZB ACCESSORIES ZVA110 1314.4477.00 MOD 03 05 GM ZVA-B11 CABLE SET C 1312.6820.11 Mod 03 GM ZVA-B11 CABLE SET 1312.6820.05 Mod 03 05 GH ZVA-K8 FREQ.
Page 451 Position Designation Stock No. Number Electrical Recommended Designation spare parts DF CABLE 4X2 AND SHIELDING 630 1145.5115.00 DZ FEED THROUGH 0099.1440.00 DZ CABLE TIE 0015.9038.00 ZM DISPLAY UNIT ZVA 1145.1390.08 Model 08 ZM DISPLAY UNIT ZVA 1145.1390.24 Model 24 40 41 42 VS 965/ISR-M2.5X5-A4-PA 1148.2752.00 COVER...
Page 452 Position Designation Stock No. Number Electrical Recommended Designation spare parts DX POWER SUPPLY CABLE 8P 1300.1987.00 Model 42 DX POWER SUPPLY CABLE 10P 1300.1993.00 Model 42 DX POWER SUPPLY CABLE 10P 1145.5538.00 Model 08 24 40 41 VS DIN137-A3-A2 0005.0296.00 VS DIN137-A4-A2 0005.0315.00 LOCK WASHER...
Page 453 Position Designation Stock No. Number Electrical Recommended Designation spare parts EK RF SPRING (169) 1069.3063.00 EK RF SPRING (225) 1069.3057.00 MB SCREEN HOLDER 0852.0850.00 VS 965/ISR-M2.5X5-A4-PA 1148.2752.00 MM PROTECTIVE COLLAR 9.6X13.9 0852.1234.00 SF FLEXIBLE SWITCH BOARD 1145.1990.00 SF KEY PAD 68T ZVA 1145.2016.00 ZM SUPPORT PLATE ZVA 1145.1984.00...
Page 454 Position Designation Stock No. Number Electrical Recommended Designation spare parts ZE RM8 BR UNIT 1145.3593.02 A505 VS 965/ISR-M2.5X8-A4-PA 1148.3294.00 MB INTAKE FUNNEL RM8 1145.4583.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 ZE FAN 40x40x10 1145.4590.00 E500 VS DIN433-3.2-A4 0082.4570.00 VS DIN128-A3-A2 0005.2499.00 VS 7985/ISR-M3X16-A4 1145.5021.00 MZ RM MOUNT ZVA 1145.2068.00...
Page 455 Position Designation Stock No. Number Electrical Recommended Designation spare parts ZE COUPLER 24 1162.0701.02 A501 MZ COUPLER HOLDING ZVA 1145.4677.00 VS 7985/ISR-M2.5X16-A4-PA 1148.2869.00 MZ SMA HOLDING ZVA24 1145.4660.00 MZ PLATE RM24 1145.4490.00 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 DW RF CABLE W518 REF 1300.0351.00 W518 DW RF CABLE W515 MEAS...
Page 456 Position Designation Stock No. Number Electrical Recommended Designation spare parts DY CABLE W700 1305.3820.00 DV RF CABLE 1305.3842.00 MZ RM44 BLOWER ATTACHEMENT 1302.5621.00 DW RF CABLE W518A REF 1305.3965.00 DW RF CABLE W515A MEAS 1305.3959.00 DW RF CABLE W514A GEN 1305.3942.00 DW RF CABLE W518B REF 1305.5750.00...
Page 457 Position Designation Stock No. Number Electrical Recommended Designation spare parts DW RF CABLE W514B GEN 1302.5738.00 W514B Model 03 13 DRAWING 1305.3407.01 (RM UNIT ZVA50 GHz) ZE REFLECTOMETER ZVA50 1305.3413.02 A500 A501 ZE COUPLER 50 1306.9009.02 MZ COUPLEHOLDER ZVA40 1302.5773.00 VS 6900/ISR-M2.5X6-A2 1148.3059.00 ZE BIAS 50...
Page 458 Position Designation Stock No. Number Electrical Recommended Designation spare parts MZ SMA-HOLDER ZVA50 1305.5516.00 VS 965/ISR-M2.5X6-A4-PA 1148.3288.00 DY CABLE W700 1305.3820.00 W700 DV RF CABLE 1305.3842.00 W541 MZ RM44 BLOWER ATTACHEMENT 1302.5621.00 Model 02 DW RF CABLE W518 REF 1305.6641.00 W518A Model 02 DW RF CABLE W515 MEAS...
Page 459 FP SATA ADAPTOR 1308.0280.00 Mod 04 4050 MB SPECIAL SCREW M3 1304.9199.00 Mod 04 DRAWING 1164.0250.00 (OPTION ZVA8-B16 DIRECT GENERATOR/RECEIVER ACCESS 1164.0209.08/09/10) 1120 DW RF CABLE W503 REF OUT 1145.2968.00 W503 Model 08 09 10 1122 DW RF CABLE W503 REF OUT 1145.2968.00...
Page 460 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1130 DW RF CABLE W501 REF IN 1145.2951.00 W501 Model 08 09 10 1132 DW RF CABLE W501 REF IN 1145.2951.00 W501 Model 09 10 1134 DW RF CABLE W501 REF IN 1145.2951.00 W501 Model 10...
Page 461 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1200 DW RF CABLE W513 SRC OUT 1300.0480.00 W513 Model 08 09 10 (only w. Combiner Att ) 1202 DW RF CABLE W513 SRC OUT 1300.0480.00 W513 Model 09 10 (only w. Combiner Att ) 1204 DW RF CABLE W513 SRC OUT 1300.0480.00...
Page 462 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1264 DW RF CABLE W505 MEAS OUT 1300.0416.00 W505 Model 26 1270 DW RF CABLE W506 MEAS IN 1300.0468.00 W506 Model 24 25 26 (only w. Rec Att ) 1272 DW RF CABLE W506 MEAS IN 1300.0468.00 W506...
Page 463 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1340 DW RF CABLE W513 SRC OUT 1300.0474.00 W513 Model 40 41 42 (only w. Gen Att ) 1342 DW RF CABLE W513 SRC OUT 1300.0474.00 W513 Model 41 42 (only w. Gen Att ) 1344 DW RF CABLE W513 SRC OUT 1300.0474.00...
Page 464 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1410 PD INSTALLATION INSTRUCTION 1164.0238.00 DRAWING 1305.5322.00 (OPTION ZVA50-B16 DIRECT GENERATOR/RECEIVER ACCESS 1164.0209.54/52) 1420 DW RF CABLE W503 REF OUT 1305.5451.00 W503 Model 50 52 1424 DW RF CABLE W503 REF OUT 1305.5451.00 W503 Model 52...
Page 465 Position Designation Stock No. Number Electrical Recommended Designation spare parts 1514 DW CABLE EXT B16 1305.5397.00 W631 W632 Model 52 W633 W641 W642 W643 1520 PD INSTALLATION INSTRUCTION 1305.5322.00 1600 STD SAFETY INSTR. BOOKLET A4 EN 1171.0100.42 ES DE FR DRAWING 1305.5322.00 (OPTION ZVA67-B16 DIRECT GENERATOR/RECEIVER ACCESS 1164.0209.67/69) 1421 DW RF CABLE W503 REF OUT...
Page 466 STD SAFETY INSTR. BOOKLET A4 EN 1171.0100.42 ES DE FR DRAWING 1164.0215.00 (OPTION ZVA8-B21 GEN.ATTENUATOR PORT 1 1164.0009.02) (OPTION ZVA8-B22 GEN.ATTENUATOR PORT 2 1164.0015.02) (OPTION ZVA8-B23 GEN.ATTENUATOR PORT 3 1164.0021.02) (OPTION ZVA8-B24 GEN.ATTENUATOR PORT 4 1164.0038.02) ZE ATTENUATOR COMB 8 1137.1595.02...
Page 467 Position Designation Stock No. Number Electrical Recommended Designation spare parts DW RF CABLE W512 ATT-GEN 1300.0451.00 W512 DW RF CABLE W536 SRC 1164.0380.00 W536 PD INSTALLATION INSTRUCTION 1164.0221.00 DRAWING 1164.0221.00 (OPTION ZVA24-B31 REC.ATTENUATOR PORT 1 1164.0144.02) (OPTION ZVA24-B32 REC.ATTENUATOR PORT 2 1164.0150.02) (OPTION ZVA24-B33 REC.ATTENUATOR PORT 3 1164.0167.02) (OPTION ZVA24-B34 REC.ATTENUATOR PORT 4 1164.0173.02) ZE ATTENUATOR REC24...
Page 468 Position Designation Stock No. Number Electrical Recommended Designation spare parts 2120 VS DIN6900-M2.5X6 -A2 1148.3059.00 2130 DY ATT-CTRL_CABLE 90 1164.0244.00 W550 2140 DW RF CABLE W507A ATT-REC 1305.3642.00 W507A 2160 DW RF CABLE W508 MEAS 1305.3688.00 W508 2170 DW RF CABLE W506 MEAS IN 1305.0468.00 W506 2190...
Page 469 Position Designation Stock No. Number Electrical Recommended Designation spare parts 2090 PD INSTALLATION INSTRUCTION 1305.5322.00 DRAWING 1164.0409.00 (OPTION ZVA50-B31 REC.ATTENUATOR PORT 1 1302.5716.02) (OPTION ZVA50-B32 REC.ATTENUATOR PORT 2 1302.5722.02) 2110 ZE ATTENUATOR 35 DB 1170.0065.03 A550 2120 VS DIN6900-M2.5X6 -A2 1148.3059.00 2130 DY ATT-CTRL_CABLE 90...
Page 470 Position Designation Stock No. Number Electrical Recommended Designation spare parts 2030 DY ATT-CTRL_CABLE GENERATOR 1164.0396.00 W550 240MM 2050 DW RF CABLE W512B ATT-GEN 1305.6906.00 W512B 2060 DW RF CABLE W536 SRC 1305.6887.00 W536 2070 DW RF CABLE W513 SRC OUT 1305.6893.00 W513 2090...
Page 471 Position Designation Stock No. Number Electrical Recommended Designation spare parts ZVA-Z110E ZVA-Z110E REFLECTOMETER EL ATT 1307.7000.40 WR10 ZVA-Z110EP ZVA-Z110EP REFLECTOMETER 1307.7000.44 ELATT POW WR10 ZVA-Z140 ZVA-Z140 REFLECTOMETER WR08 1307.7800.02 ZVA-Z170 ZVA-Z170 REFLECTOMETER WR06 1311.8707.02 ZVA-Z220 ZVA-Z220 REFLECTOMETER WR05 1307.8006.02 ZVA-Z325 ZVA-Z325 FREQUENCY CONVERTER 1317.0514.02 WR03...
Page 484 Verdrahtungsplan Netzteil wire connections for power supply Pos. 755 Pos. 755 Pos. 750 Pos. 745 Pos. 750 (Cable 10p) (Cable 10p) (Cable 8p) (Cable 6p) (Cable 8p) 6,5V 3,6V 5,2V +12V (red) (orange) GND(+12V) GND(+6V) (black) (black) GND(-12V) GND(-6V) +3,3V (black) (black) (orange)
Page 486 Verdrahtungsplan Netzteil wire connections for power supply Pos. 751 Pos. 751 Pos. 746 Pos. 754 Pos. 741 (Cable 8p) (Cable 4p) (Cable 10p) (Cable 2x6p) (Cable 8p) 6,5V 3,4V (orange) (red) GND(+8V) GND(+5V) (black) (black) Pos. 755 Pos. 755 (Cable 10p) (Cable 10p) GND(-12V) +12V...
Page 546 Circuit Diagram 1145.1078.02 5.38 E-10...
Page 576: Circuit Diagrams
Circuit Diagrams 1177.5333.02 5.37 E-11...

This manual is also suitable for:

Zva24 Zva40 Zva50 Zva67 Zva80bu

R&S ZVA8 Service Manual

- Chapter 1 "Performance Test"

Performance Test

Preliminary Remarks

Test Equipment and Accessories

Performance Test

Performance Test R&S Zva

Accuracy Page 1.15

Neg. Input -1000 M V

DC Meas 10 V

Pos. Input -10.0 V - 0.275

Contents - Chapter 2 "Alignment"

Contents - Chapter 3 "Repairs"

Repairs

Board Replacement

Contents - Chapter 5 "Documents"

Tables

5 Documents

Quick Links

Chapters

Troubleshooting

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Summary of Contents for R&S ZVA8

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Table of Contents