Page 1 HDT-02 Transmitter Manual Version V9.9...
Page 2 Accessories included in this manual: Clip-on Amplifier AVF Flexible Antenna PA / PA Ultralinear Power Amplifier RTC-01 RTC-02 GPS-01 Remote Control Remote Control Antenna...
Page 3 Contents Chapter 1: Introduction This chapter provides a general description of the High Definition HDT-02 camera Transmitter. Chapter 2: Technical features This part offers the Transmitter’s physical and environmental characteristics. Chapter 3: How to order The third part provides the user with information on ordering and different configurations available for these receivers.
Page 4 Annex A: PA Power Amplifiers This annex explains the main characteristics of SVP Broadcast Microwave’s PA Power Amplifiers. Annex B: PAC Clip-On Power Amplifiers This annex explains the main characteristics of SVP Broadcast Microwave’s PAC Clip-On Power Amplifiers. Annex C: AVF Flexible Antenna User’s Guide The different flexible antennas and its characteristics are explained in this chapter.
Page 5 Dear Customer, We would like to thank you for selecting this equipment and welcome you to the SVP’s growing family of products. We are sure that the addition of this equipment will give you a complete satisfaction in your existing installation.
Page 6 About this manual This user’s guide provides indications and explanations about how to set up the HDT-02 easily for the most common use cases. This document is intended to help first time users: • To find their way around the GUI.
Page 7 Important Notes • The HDT-02 H.264 High Definition multiband Transmitter is completely compatible with the DVB-T/T2/S/S2 Standards, included in the European Standard ETSI EN300744 (DVB-T), ETSI EN300755 (DVB-T2), ETSI EN302307 (DVB-S2) (optional) and ETSI EN300421 (DVB-S) (optional). It also complies with the ISDB-T International technical standard (optional).
Page 8 PA-5 (5 W Power Amplifier), the minimum distance is 28.2 cm and if PA- 10 (10 W Power Amplifier) is used, the minimum distance is 39.9 cm. SVP Broadcast Microwave, in accordance with the requirements set forth by the FCC, provides this information as a guide to the user.
Page 9 G = 3 = 100 mW EIRP = 200 mW = 4 cm = 1.57 in 2. HDT-02 Transmitter + PA-5 (5 W) with AVF antenna G = 3 = 5000 mW EIRP = 10000 mW = 28.2 cm = 11.1 in 3.
Page 10 20 cm. The equipment, which consists of the HDT-02 Transmitter with the AVF-203 antenna fixed to it, fulfills this requirement. As shown in the figure below, the distance between the device’s radiating element (situated at the top of the...
Page 11 RF Exposure Evaluation As shown in the point number 2.5.2 from the RSS-102 Radio Standard Specification, RF exposure evaluation is required if the separation distance between the user and the device’s radiating element is lower than 20 cm, except when the device operates as follows: Below 1.5 GHz and the maximum e.i.r.p.
Page 12 First Aid in Case of Electric Shock DO NOT TOUCH THE VICTIM WITH YOUR BARE HANDS until the circuit is broken. SWITCH OFF. If this is not possible, PROTECT YOURSELF with DRY insulating material and pull the victim clear of the conductor. If breathing has stopped, indicated by unconsciousness, lack of respiratory movements and a ‘blue’...
Page 13 In the case of severe facial injuries, it may be necessary to do a manual method of artificial respiration (Silvester-Brosch or Holger Nielsen). Briefly, these methods apply compression to ribcage with the victim lying on his back (S-B) or face down (H.N.) with associated movement of his arms up and out.
Page 14: Table Of Contents
Chapter 1: Introduction ..............18 Chapter 2: Technical features ............22 Chapter 3: How to order ..............26 Chapter 4: Transmitter Operation and Menus ........ 27 4.1 Display ..................27 4.1.1 Main Screen for the DVB-T2 ..........30 4.1.2 Main Screen for the DVB-T ............ 32 4.1.3 Main Screen for the DVB-S2 ..........
Page 15 8.2.2.1 BUC Connection pinout ............ 151 8.2.2.2 HDT-02 to PA Control Cable pinout ........151 8.2.3 RTC Connector ..............152 8.2.3.1 HDT-02 to RTC-01 and RTC-02 Cable pinout ....... 153 8.2.4 GPS-CVBS ................. 153 8.2.5 Video inputs ..............155 8.2.6 Audio inputs ..............156 8.2.7 Remote ................
Page 16 10.8 GPS-01 Antenna & Receiver ............ 185 Chapter 11: Preventive Maintenance ........... 186 11.1 Maintenance Schedule ............186 11.2 Maintenance Procedures ............186 11.3 Spare Parts ................186 Chapter 12: Warranty ..............187 12.1 Warranty information ............. 187 12.2 Claim for damage in shipment ..........187 12.3 Return procedures ..............
Page 17 E.1.1 How Does It Work .............. 215 E.2 DVB-T2 .................. 216 E.2.1 How Does It Work .............. 216 E.2.2 DVB-T2 New Features ............216 E.2.3 DVB-T vs DVB-T2 ............... 217 E.3 DVB-S ..................218 E.3.1 How Does It Work .............. 218 E.4 DVB-S2 ..................
Page 18: Chapter 1: Introduction
Chapter 1: Introduction The HDT-02 is the multifunction and multiband Transmitter developed by SVP Broadcast Microwave. The features of this equipment, achievable only by SVP, make this Transmitter the most advanced in the market to date. Its feature H.264 encodes for 3G, high definition (HD) and standard definition (SD) signals with ultra-low latency.
Page 19 The equipment is fed with DC power supply from 8 to 36V. It can be powered through DC power supply connector or through the battery mount (optional). Its excellent design, mechanical and electronic assembly make the HDT-02 a robust and reliable solution.
Page 20 46 Mbps. DVB-T features The RF stage of the HDT-02 Transmitter is the same as the DVB-T2 one. The difference is found in the modulation part as it is commented below. The HDT-02 digital camera Transmitter uses COFDM (Coded Orthogonal Frequency Division Multiplexing) modulation system (2K mode).
Page 21 DVB-S2 features (optional) In case the HDT-02 Transmitter is needed to be used as a satellite Transmitter, it features an IF stage in the L band with an output power level from -50 to +5 dBm and a high stability and low phase noise.
Page 22: Chapter 2: Technical Features
Chapter 2: Technical features RF Stage DVB-T2, DVB-T and ISDB-T(optional): Frequency bands: 1 to 2.8 GHz 3 to 4 GHz 4 to 6.4 GHz Max. Output Power: 20 dBm (1 – 2.8 GHz) 19 dBm (3 – 4 GHz) 11 dBm (4 – 5,4 GHz) 5 dBm (5,4 –...
Page 23 DVB-S (optional): QPSK Constellation rotation Reed Solomon FEC: 1/2, 2/3, 3/4, 5/6, 7/8 Baud Rate: 31 Msymb/s ISDB-T (optional): OFDM 2K, 4K and 8K QPSK, 16QAM, 64QAM FEC: 1/2, 2/3, 3/4, 5/6, 7/8 IG: 1/4, 1/8, 1/16, 1/32 Bandwidth: 6, 7, 8 MHz Max.
Page 24 576i (720x576) – 50 Hz 480i (720x480) – 59,94 Hz Audio: Input: HDMI embedded/ SDI embedded AES Digital / Analogue Analogue: 2 Stereo/ 4 Mono Line, Micro Dynamics and Phantom SDI embedded: 1 Group (4 Audio channels) AES/EBU: 2 Stereo channels Data Channels: Data channel: User data (RS232) or GPS (NMEA at 4800...
Page 25 Power Supply: DC input: 8 to 36 V By batteries Anton-Bauer or V (AB or V mount clamping system optional) Consumption: 16 W @ 12V 20 W @ 28V Mechanical: Size: 123.5 x 48.4 x 206.1mm Weight: 1 kg (without fastenings) (2.2 lb) Environmental: Aeronautical...
Page 26: Chapter 3: How To Order
Chapter 3: How to order HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 27: Chapter 4: Transmitter Operation And Menus
Next, the main screen of the HDT-02_H.264 Transmitter is shown. Figure 4.1: HDT-02 front panel / Main screen explanation Once an option has been selected, the main screen appears and these parameters are displayed: •...
Page 28 • Video Input selection Possibilities: CVBS, HDMI, SDI, DVB-ASI Transport Stream or Generator. Behaviour of the corresponding character: If the character is static then it means presence of that signal. If the character blinks, then it means absence of that signal. •...
Page 29 RS232 Data Remux Table 4.1: Linkages between the input and the character displayed HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 30: Main Screen For The Dvb-T2
4.1.1 Main Screen for the DVB-T2 In the table below, the function of each parameter is explained. These values are numbered in the order they appear on the main screen. Figure 4.2: Main screen for DVB-T2 standard Parameter nº Function Transmission frequency (MHz) Transmission standard (DVB-T2) Output power (dBm) or (High, Low, Mid)
Page 31 Video Format: • 1080p (1920x1080) – 23,98/ 24/ 25/ 29,97/ 30/ 50/ 59,94/ 60 Hz • 1080i (1920x1080) – 50/ 59.94/ 60 Hz • 720p (1280x720) – 23,98/ 24/ 25/ 29,97/ 30/ 50/ 59,94/ 60 Hz • 576i (720x576) – 50 Hz •...
Page 32: Main Screen For The Dvb-T
4.1.2 Main Screen for the DVB-T In the table below, the function of each parameter is explained. These values are numbered in the order they appear on the main screen. Figure 4.3: Main screen for DVB-T standard Parameter nº Function Transmission frequency (MHz) Transmission standard (DVB-T) Output power (dBm)
Page 33 Character 5: KLV metadata enabled if K appears on the screen. If metadata is present, the character is static, otherwise it blinks. Character 6: Remux option enabled if R appears on the screen. Video Format (1080p, 1080i, 720p, 576i, 480i) Video options: Profile (MPEG-4 4:2:0 or MPEG-4 4:2:2) Delay (Standard (S), Low delay (L), Super Low delay (SL) or Ultra...
Page 34: Main Screen For The Dvb-S2
4.1.3 Main Screen for the DVB-S2 In the table below, the function of each parameter is explained. These values are numbered in the order they appear on the main screen. Figure 4.4: Main screen for DVB-S2 standard Parameter nº Function Transmission frequency (MHz) Transmission standard (DVB-S2) SR (MSymb/s)
Page 35 Video options: Profile (MPEG-4 4:2:0 or MPEG-4 4:2:2) Delay (Standard (S), Low delay (L), Super Low delay (SL) or Ultra Low delay (UL)) Table 4.4: DVB-S2 Main Screen parameters HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 36: Main Screen For The Dvb-S
4.1.4 Main Screen for the DVB-S In the table below, the function of each parameter is explained. These values are numbered in the order they appear on the main screen. Figure 4.5: Main screen for DVB-S standard Parameter nº Function Transmission frequency (MHz) Transmission standard (DVB-S) SR (MSymb/s)
Page 37 Video options: Profile (MPEG-4 4:2:0 or MPEG-4 4:2:2) Delay (Standard (S), Low delay (L), Super Low delay (SL) or Ultra Low delay (UL)) Table 4.5: DVB-S Main Screen parameters HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 38: Leds
4.2 LEDs The HDT-02 Transmitter has 5 LEDs on its front panel that show the information detailed below. ON/OFF ALARM REMOTE STATUS Figure 4.6: HDT-02 front panel LED indication The ON/OFF provides the following information: • If the LED is off, the equipment is not being fed.
Page 39: Front Panel
4.3 Front panel The HDT-02 camera Transmitter is configured following the menus structure on the display. The front panel has 8 buttons to enter and exit the equipment’s control menus and submenus and to navigate through them. The function of each button is detailed in the following sections.
Page 40: Cross Button
4.3.3 Cross Button This button is used to: • Enter from the equipment main screen to the setup menu and vice versa. • Exit equipment’s submenus. • This button allows the user to access the main screen from the alarms screen.
Page 41 However, if power supply fails when RF output is enabled then, once power supply returns it is not necessary to push this button because RF output will continue being enabled. Figure 4.13: RF On/Off button HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 42: Menu Scheme
4.4 Menu Scheme There is one menu in this Transmitter that allows the user to change the Transmitter’s parameters and configure them. To enter the menu of this equipment the cross button must be pressed. In case you want to return again to the principal screen from the menu, the cross button must be pressed.
Page 43 MAIN SCREEN Received signal standard, Bitrate, Video codification, Output video signal format, Profile, Delay, Audio and Data status, Received frequency, Scheme modulation, FEC, Guard Interval, Bandwidth, Number of cuts. Continued→ Encoder Continued→ Video Audio 1 / 2 Analogue HDMI 1 HDMI 2 CVBS Generator...
Page 44 Continued→ Continued Continued Data KLV Metadata Encoder output TS Parameters Remux Scrambler Service name External Internal BISS-1 BISS-E AES-128 AES-256 Auto None None RS232 Program Nº Manual Video PID Audio1 PID Antenna GPS Info Baud Rate Program Nº Audio2 PID power supply Parity...
Page 45 Continued→ Continued DVB-S2 DVB-S DVB-T2 DVB-T Frequency Frequency Frequency Frequency Output signal type Output signal type Power Power Output Power Output Power Mode Bandwidth Modulation Modulation Bandwidth Modulation LDPC FEC Modulation Symbol Rate and Bandwidth Symbol Rate and Bandwidth LDPC FEC Guard Interval Roll Off Spectrum...
Page 46 Continued Unit Profile RTC-01 Config RTC-02 Config Alarms Monitor Remote Miscellaneous Firmware Temperature Current Version Local IP Band Voltage Mask Keyboard Beep Update Firmware Gate Restore Default Keyboard Lock Night Mode Admin Pass Distance Units User Pass Video Switch T / T2 Carrier Activation Key HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 47: Menu Navigation
4.5 Menu Navigation This section contains a detailed description of each parameter that can be configured in the HDT-02_H.264 camera Transmitter via the menu. To enter the menu, press the Cross button in the case of being on the principal screen or in any submenu.
Page 48: Menu Structure
4.6 Menu Structure The main menu is used to access the main parameters of the Transmitter which are explained below. The following menu screen can be accessed by pressing the Cross key from the main screen. Figure 4.14: Main Menu •...
Page 49 4.6.1 Encoder Menu The Encoder menu allows the configuration of the video, Audio and data input and KLV metadata selection. On this menu, the encoder can be configured to output the bitrate set manually or auto. If auto is selected, the bitrate is set by the modulation parameters automatically (bandwidth, modulation, FEC, GI, FTT number).
Page 50 Line nº Function Video: In this field, the video input must be chosen with the Right and Left buttons. Once the video input has been selected, press the OK button to configure the parameters related to it. The available options are: •...
Page 51 Encoder Output: In this field, the encoder output can be selected manually. Pressing the OK button, the output bitrate can be configured. TS Parameters: This field consists of the configuration of the parameters of the Transport Stream. In this option, the different program identifiers are configured.
Page 52 4.6.1.1 SDI Video Input When SDI input is selected, press OK button to access the video configuration menu. The video format is automatically detected. The parameters which are configured in this section are explained below. Format: 1080/30p Delay: SuperLD 2F <>...
Page 53 Profile (eligible parameter): In this field, the codification profile can be configured. To select the desired profile, press Right, Left arrows buttons. The available options are: • 4.2.0 • 4.2.2 ( not available in 1080p-50/59.94/60 Hz video formats) (eligible parameter): In this field, the group of figures parameter is displayed.
Page 54 4.6.1.2 HDMI Video Input When HDMI input is selected, press OK button to access the video configuration menu. The video format is automatically detected. The parameter which are configured in this section are explained below. HDMI Format: 1080p Delay: Standard >...
Page 55 Profile (editable parameter): In this field, the codification profile can be configured. To select the desired profile, press Right, Left arrows buttons. The available options are: • 4.2.0 • 4.2.2 (eligible parameter): In this field, the group of figures parameter is displayed. It specifies the order in which intra-...
Page 56 4.6.1.3 CVBS Video Input In this section, the composite video input is selected. The equipment will automatically detect the input between PAL and NTSC formats. The CVBS video input is available on the Lemo 6 connector. CVBS Format: 480i Delay: SuperLD 2F <> Profile: 4.2.0 >...
Page 57 GOP (eligible parameter): In this field, the group of figures parameter is displayed. It specifies the order in which intra- inter-frames are arranged. The available options are: • Auto • Manual (editable parameter) Level: In this field, the level of the H.264 encoder can be configured. The available options are: •...
Page 58 4.6.1.4 ASI Video Input When ASI input is selected, the signal is directly sent to the modulator. This input is also used for Remux. When Remux option is enabled, the second video which is going to be sent must be connected to the ASI input, but the selected video input must be SDI or HDMI or CVBS (according to the inserted video input for the first channel to be remuxed) but not ASI.
Page 59 4.6.1.5 Generator Video Input In this section the video generator can be configured, this option is used for tests when there is no video source. GENERATOR Format: 576/50i Delay: SuperLD 2F <> Profile: 4.2.0 > GENERATOR GOP: Auto Level: 4.1 >...
Page 60 GOP (eligible parameter): In this field, the group of figures parameter is displayed. It specifies the order in which intra- inter-frames are arranged. The available options are: • Auto • Manual (editable parameter) Level: In this field, the level of the H.264 encoder can be configured. The available options are: •...
Page 61 4.6.1.6 Audio1 Embedded When Embedded Audio is selected, that means that the transmitted Audio is catch from the video input selected, where the Audio is embedded. It can be SDI or HDMI. Figure 4.21 : Audio Embedded Input Menu Line nº Function Bitrate (eligible parameter): In this option the bitrate for the codification of the Audio signal 1...
Page 62 4.6.1.7 Audio1 Analogue When Analogue Audio is selected, the Audio is catch from the external Audio input. The cable from Lemo 5 to XLR-4 is needed, this cable is provided together with the Transmitter. Figure 4.22: Audio Analogue Input Menu Line nº...
Page 63 4.6.1.8 Audio1 AES-EBU When AES-EBU Audio 1 is selected, it must be connected to the Audio 1 Left connector. Figure 4.23: Audio AES-EBU Input Menu Line nº Function Bitrate (eligible parameter): In this option, the bitrate for the codification of the Audio signal 1 can be selected.
Page 64 4.6.1.9 Audio1 Tone Gen. This Audio tone can be used for tests when an Audio source is not available. Figure 4.24: Audio Generator Input Menu Line nº Function Bitrate (eligible parameter): In this option, the bitrate for the codification of the Audio signal 1 can be selected.
Page 65 4.6.1.10 Audio2 Embedded When Embedded Audio is selected, that means that the transmitted Audio is catch from the SDI video input, where the Audio is embedded. Figure 4.25 : Audio Embedded Input Menu Line nº Function Bitrate (eligible parameter): In this option the bitrate for the codification of the Audio signal 2 can be selected.
Page 66 4.6.1.11 Audio2 Analogue When Analogue Audio is selected, the Audio is catch from the external Audio input. The cable from Lemo 5 to XLR-4 is needed, this cable is provided together with the Transmitter. Figure 4.26: Audio Analogue Input Menu Line nº...
Page 67 4.6.1.12 Audio2 AES-EBU When AES-EBU Audio 2 is selected, it must be connected to the Audio 2 Left connector. Figure 4.27: Audio AES-EBU Input Menu Line nº Function Bitrate (eligible parameter): In this option, the bitrate for the codification of the Audio signal 2 can be selected.
Page 68 4.6.1.13 Audio2 Tone Gen. This Audio tone can be used for tests when an Audio source is not available. Figure 4.28: Audio Generator Input Menu Line nº Function Bitrate (eligible parameter): In this option, the bitrate for the codification of the Audio signal 2 can be selected.
Page 69 4.6.1.14 Data To select the desired sort of data, press Right, Left buttons (eligible parameter). The available options are: None ▪ External GPS ▪ Internal GPS ▪ RS232 ▪ 4.6.1.14.1 None This option is selected when no data is inserted to the Transmitter. 4.6.1.14.2 External GPS Screen If External GPS option is selected and the GPS receiver is connected to the GPS input of the Transmitter, then, by pressing the OK button, the user can...
Page 70 • Latitude of the Transmitter: The latitude position of the Transmitter is specified. • Speed of the Transmitter: It shows the speed of the Transmitter in knots. • Direction of the Transmitter: The direction of the Transmitter is shown in this field. •...
Page 71 • Latitude of the Transmitter: The latitude position of the Transmitter is specified. • Speed of the Transmitter: It shows the speed of the Transmitter in knots. • Direction of the Transmitter: The direction of the Transmitter is shown in this field. •...
Page 72 When this option is ON, the KLV Metadata embedded on the SDI signal is sent through the radio link. If KLV metadata is not embedded on SDI input, the HDT-02 Transmitter will show an alarm indicating that the KLV is not present.
Page 73 If the user selects the manual option, the first and second lines disappear on the main screen. When the encoder output is in Manual, if you activate the RF, the encoder output changes to AUTO mode automatically. HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 74 4.6.1.17 TS Parameters Figure 4.36: Encoder TS Menu HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 75 Line nº Function Service Name (editable parameter): Here the Service name must be entered. To change its value, first press the OK button and then, with the UP, Down arrows select the desired letter. With the Right, Left keys, the user can select the character of the word.
Page 76 TS id (editable parameter): Here the Transport Stream identifier must be entered. To change its value, first press the OK button and then, with the UP, Down arrows select the desired number. Press the OK button to save the introduced value. Network id (editable parameter): Here the Network identifier must be entered.
Page 77 4.6.1.18 Scrambler In this section the signal can be encrypted with different encryption methods. Figure 4.37: Scrambler menu Line nº Function Mode (eligible parameter): To choose the desired encryption, press the Right, Left keys. The available options are: • None •...
Page 78 4.6.1.19 Remux (optional) Remux option allows the Transmitter to send 2 different services multiplexed in one TS. The second service must be introduced in the ASI input. Figure 4.38: Remux menu screen The Program Number and the PMT PID must be the same as the service which is being introduced in the ASI input has.
Page 79 ASI bitrate must be known. You must configure it to have ASI input Bit rate plus NTT encoder Bit rate minor than modulator total Bit rate. HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 80 4.6.2 RF Menu By using the Up, Down arrow keys, select the RF option and press the OK key. In this section, we make a selection of the modulation we are going to use. It permits 4 options. (The S2 and the S are optional). Figure 4.40: RF menu 4.6.2.1 DVB-T2 Here we can change different parameters of the T2 modulation.
Page 81 PA (LOW/MID/HIGH) (Selectable by pressing OK button) Power is automatically configured to PA mode when there is communication between the HDT-02 and the PA. Then, the output power can be selected using Left and Right buttons. The output power indicated as LOW, MID and HIGH will depend on the PA model used.
Page 82 1 to 2.8 GHz. It is used to feed the amplifier remotely through the RF output of the HDT-02 transmitter. The available options are: • On: Input supply voltage of the transmitter is delivered by the RF output (between 8 and 36 VDC) •...
Page 83 PA unit (Only accessible when Power PA is selected): In this field, by pressing the OK button, you access the PA Power Amplifier reading parameters. The parameters shown are: • Direct Power (dBm) • Reverse Power (%) • PA alarms •...
Page 84 4.6.2.2 DVB-T Here we can change different parameters of the DVB-T modulation. Some of these parameters affect the output bitrate of the modulator and the characteristics of the link: more robustness or more bitrate. DVB-T F: 2.300.00MHz Power: PA(High) <> Bandwidth: 8 MHz <...
Page 85 PA (LOW/MID/HIGH) (Selectable by pressing OK button) Power is automatically configured to PA mode when there is communication between the HDT-02 and the PA. Then, the output power can be selected using Left and Right buttons. The output power indicated as LOW, MID and HIGH will depend on the PA model used.
Page 86 1 to 2.8 GHz. It is used to feed the amplifier remotely through the RF output of the HDT-02 transmitter. The available options are: • On: Input supply voltage of the transmitter is delivered by the RF output (between 8 and 36 VDC) •...
Page 87 4.6.2.3 DVB-S2 This section explains the configurations of the DVB-S2 satellite modulation present at its L band. Figure 4.43: DVB-S2 Menu HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 88 In this field, the value of the output power can be selected. The possible output power range is from -5 to 20 dBm. The available options are: • L-BAND (The output power of the HDT-02 in dBm). • HPA (The output power of the amplifier in dBW). •...
Page 89 LDPC Fec (eligible parameter): Here the value of the Forward Error Correction can be chosen. Use Right and Left buttons to select the desired value. The available options are: • • • • • • • • • • 9/10 SR (editable parameter): In this field, the value of the symbol rate can be introduced.
Page 90 10 MHz (eligible parameter): This feature provides a reference signal of 10MHz to the satellite up- converter when ON. The available options are: • • Antenna Gain (dBi) (editable parameter): To select the gain of the Transmitter antenna. Press the OK button to configure it and then the OK button again to save the introduced value.
Page 91 4.6.2.4 Symbol Rate calculation To calculate the symbol rate needed for a determined bandwidth, the next equation must be implemented: �� = (1 + ��) Where: SR: Symbol Rate in Msymb/s BW: Bandwidth in MHz Next, a table is shown as an example of the Symbol Rate values for a determined Bandwidth of 28 MHz.
Page 92 4.6.2.5 DVB-S In this screen the modulation parameters in DVB-S are selected. These settings affect to its L band output. Figure 4.44: DVB-S Menu HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 93 In this field, the value of the output power can be selected. The possible output power range is from -55 to 5 dBm. The available options are: • L-BAND (The output power of the HDT-02 in dBm). • HPA (The output power of the amplifier in dBW). •...
Page 94 Spectrum (eligible parameter): Here the type of spectrum is configured. Inverted spectrum is just another method to help prevent signal theft. Use Right and Left buttons to select the desired option. The available options are: • Normal • Invert 10 MHz: (eligible parameter) This feature provides a reference signal of 10MHz to the satellite up-converter when ON.
Page 95 4.6.3 Unit Menu In this section, the Remote Control is configured. By using the Up, Down arrow keys, select the Unit option and press the OK key. Figure 4.45: Unit Menu HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 96 RTC model, press OK button to access to the profiles mode. Figure 4.46: Unit Profile Menu • Disable: The HDT-02 Transmitter works without the Profile option. • RTC-01: Select this option if RTC-01 is used. • RTC-02: Select this option when the RTC-02 is used.
Page 97 Alarms and warnings are displayed if you press OK button for a short time. Figure 4.48: Profile selected To return to the Main menu click exit. After entering the Main menu, the parameters can be configured from the Web Server. 4.6.3.3 RTC-02 Remote Control Screen When we enter in the RTC-02 profile, the channel selection screen will appear: Figure 4.49: Profile Selection...
Page 98 The output power configured on the RTC-02 is shown on the main screen of the channel selection. Figure 4.50: Profile selected To return to the Main menu and change the HDT-02 configuration, press Exit. While the user is controlling the Transmitter via a Remote control, Web Server is not accessible.
Page 99 4.6.3.4 RTC-01 Config In this option, a profile can be configured. Select RTC-01 Config option and then by pressing the OK button, the available profiles will be displayed. There are seven profiles available and can be enabled or disabled. Figure 4.51: Profile Config Menu Select a profile and then press the OK button to configure the parameters related to it: HDT-02_H.264 High Definition Digital Camera Transmitter...
Page 100 Figure 4.52: Profile 1 Menu HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 101 Line nº Function System (eligible parameter): Select the type of the transmission system with the Right and Left buttons. There are two options available: • DVB-T2 • DVB-T Frequency (editable parameter): Select the frequency at which the signal is going to be transmitted. Press the OK button and with Up, Down keys configure the desired value.
Page 102 LDPC Fec (eligible parameter): Select the desired FEC value with the Right and Left buttons. The available options are: • • • • • • • FFT (eligible parameter): Select the desired FFT value with the Right and Left buttons. The available options are: •...
Page 103 Audio1 Input (eligible parameter): In this field, the sort of Audio signal introduced in the Audio 1 input can be chosen with right and left buttons. The available options are: • Embedded • Analogue • AES-EBU • Tone.Gen • None Audio2 Input (eligible parameter): In this field, the sort of Audio signal introduced in the Audio 2 input can be chosen with right and left buttons.
Page 104 Scrambler (eligible parameter): Select the desired encryption with the Right and Left buttons. There are five options available: • None • Biss-1 • Biss-E • AES-128 (optional) • AES-256 (optional) Service Name (editable parameter): Set the name of the service. Program Number (editable parameter): Here the program number must be entered.
Page 105 4.6.3.5 RTC-02 Config Only the frequency and bandwidth are programmed. Other parameters are configured on the main menu of the Transmitter. Select RTC-02 config option and then, by pressing the OK button, the channel list will be displayed. There are fourteen channels available, seven in group A and seven in group B.
Page 106 4.6.3.6 Alarms In this option, different alarms which are present in the device are shown. The alarm screen can be accessed by pressing the OK button from the main screen as well. To return to the main screen from the alarm screen, the Cross button must be pressed.
Page 107 4.6.3.7 Monitor Figure 4.55: Unit Monitor Menu • Temperature (reading parameter): In this field, the internal temperature of the device is displayed. With the Right, Left keys, the user can select if the temperature is shown in ºC or in ºF. Moreover, the value which is between square brackets means the speed of the fans (values from 1 to 4) where 1 means that the fans are stopped and value 4 that they are at the maximum speed.
Page 108 Line nº Function Local IP (editable parameter): In this option the IP address of the device can be set in the case that it is wanted to control the device remotely. To change the IP address first press OK button and then, with the Up and Down keys select the desired number.
Page 109 4.6.3.9 Miscellaneous UNIT MISCELLANEOUS Band: 5.300,00MHz > Keyboard Beep: Off < Keyboard Lock: Off < UNIT MISCELLANEOUS Night Mode: 0 Dist Units: Km > Video Switch: No > UNIT MISCELLANEOUS T/T2 Carrier: Off Activ Key:****** S/N: 660010911 Figure 4.57: Miscellaneous Menu Line nº...
Page 110 Keyboard Lock (eligible parameter): If the On option is selected and the buttons of the equipment remain for 5 minutes without being pressed, a message will appear on the screen saying that the keyboard is locked. By pressing the cross button, the keyboard can be unlocked.
Page 111 4.6.3.10 Firmware Figure 4.58: Firmware Menu Line nº Function Update Firmware: In this field you can update the version of the device. To update the equipment properly, follow the instructions below. Restore Default: In this option, the equipment is restored to the factory version. To restore the equipment to the initial set up, press the OK button.
Page 112 Next, the necessary steps to make a successful update are explained. The latest firmware can be found on the website of SVP Broadcast Microwave. To access the firmware file, first enter www.svpbm.com in your web browser. Click on the Support tab.
Page 113 Go to TX_Firmware. Figure 4.61: Updating firmware step 4 Press the version of the Transmitter model (version of the equipment) to download the file. To verify the version of the Transmitter, go to firmware field and then look at the current firmware to check the number installed in the device (the first two digits).
Page 114 In the USB device, the only file that can be allocated inside it is the firmware file of the device to be updated. With the equipment powered off (with no power supply), insert the USB device in the USB connector, placed in the rear panel. Before introducing the USB device, remove the power supply of the equipment.
Page 115: Chapter 5: Gps Application
Chapter 5: GPS Application 5.1 Introduction The HDT-02 Transmitter has 2 possible GPS inputs. The first one by NMEA data transference through a RS232 port at 4800 baud speed. The second one by an integrated GPS receiver; in this second case, it is needed to connect an external GPS antenna, which can be active or passive.
Page 116: Main Screen
5.2 Main Screen Next the value of the data field which appears on the main screen of the HDT- 02 Transmitter is explained. Figure 5.2: Main screen The data status field indicates with a darkened X that it is disabled. When this parameter is enabled and blinks, this means that there is nothing connected to the data input.
Page 117 Next the different field meanings are shown. Figure 5.3: GPS Transmitter screen • Latitude of the Transmitter: It specifies the latitude position of the Transmitter. • Speed of the Transmitter: It shows the speed of the Transmitter in knots. • Direction of the Transmitter: The direction of the Transmitter is shown in this field.
Page 118: Application Example 1 - Constant Positioning
• GPS antenna • HDR-106 receiver With the GPS antenna connected to the HDT-02 Transmitter, positioning of the aeroplane is achieved once the GPS system is connected to the necessary satellites. With the data obtained in the Transmitter we can know the positioning of the aeroplane.
Page 119: Chapter 6: Web Server
Chapter 6: Web Server 6.1 Introduction This equipment can be controlled from a PC connected at the rear panel Ethernet connector . To enable the browser interface correctly, the IP address, Subnet Mask, Gateway, User Password and Administrator Password need to be set correctly on this unit.
Page 120 Select MSK option and set the Subnet Mask address. To change the Subnet Mask address first press OK button and then, with the Up, Down keys select the desired number. To change from one character to another, press Right, Left keys. Press the OK button to save the introduced value.
Page 121 Figure 6.8: Restore User Pass Once the IP, Subnet Mask, Gateway, Admin Pass and User Pass are set and the laptop or PC is connected to the HDT-02 H.264, open the web browser and type in the Local IP configured in the Transmitter.
Page 122: Web
6.2 Web Page Overview The main menu is set in the upper position of the screen. Once an option is chosen, it is possible to change any parameter allowed, or to see the values of some options. To modify an editable parameter, introduce the new one and press enter button.
Page 123: Encoder
6.2.1 ENCODER Figure 6.9: Web Server Encoder screen HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 124 6.2.1.1 Video • Input (eligible parameter): Select the type of the video input. The video input options available are SDI, HDMI1, HDMI2, CVBS, ASI and Generator. • Format (reading parameter): Here the format of the video input signal is displayed. If there is no video input then the message ‘not detected’...
Page 125 6.2.1.2 Audio • [A1] Input (eligible parameter): Select the type of signal introduced in the Audio 1 input. The Audio input options available are Embedded, Analogue, AES-EBU, Test Tone and None. • [A1] Bitrate (eligible parameter): Select the bitrate for the coding process of the Audio 1 signal. The available options are 128, 192, 256 and 384 Kbps.
Page 126 6.2.1.3 Data • Input (eligible parameter): Select the type of data introduced to the device. The available options are None, External GPS, Internal GPS and RS232. 6.2.1.3.1 RS-232 If the RS-232 connection is selected, the next parameters must be configured to achieve a successful communication: •...
Page 127 • Status (reading parameter): The status of the GPS input is displayed in this field. • Latitude (reading parameter): It specifies the latitude position of the Transmitter. • Longitude (reading parameter): It specifies the longitude position of the Transmitter. • Altitude (reading parameter): The height of the Transmitter from ground in meters is specified in this value.
Page 128 FEC, IG, BW used, in order to the video bitrate can be always the maximum allowed. SVP advises the use of the automatic mode when the signal is transmitted through RF. Manual mode is useful when the device is used as an encoder to configure the desired output bitrate in the ASI output.
Page 129 6.2.1.6 Scrambler If you want an encryption system, it can be chosen here. • None: None encryption • BISS-1: Uses an unencrypted key for the BISS key • BISS-E: Uses an encrypted key (AES 148 and AES 256 encryption, optionally, are available) 6.2.1.7 Remux •...
Page 130 6.2.2 RF Figure 6.10 Web Server RF screen (DVB-T) • System (eligible parameter): In this field the transmission standard can be chosen. The available options are DVB-T2, DVB-T, DVB-S2 and DVB-S. • RF Status (eligible parameter): Select ON to activate the RF transmission or press OFF button to deactivate it.
Page 131 • Modulation (eligible parameter): Select the constellation of the transmitted signal. The available options are QPSK, 16QAM, 64QAM. • FEC (eligible parameter): Select the FEC value for the transmitted signal. The available options are 1/2, 2/3, 3/4, 5/6, 7/8. • GI (eligible parameter): Select the guard interval of the transmitted signal.
Page 132 6.2.2.2 DVB-T2 Figure 6.11: Web server RF screen (DVB-T2) • Frequency (editable parameter): Introduce the frequency at which the signal is being transmitted. • Power (eligible parameter): Specify the power at which the signal is being transmitted (Variable, Low, High and PA). •...
Page 133 • Mode (eligible parameter): Specify the FFT mode. The available options are 1K, 2K and 4K. • GI (eligible parameter): Select the guard interval of the transmitted signal. The available options are 1/4, 1/8, 1/16 and 1/32. • Pilot Pattern (reading parameter): This field indicates the scattered pilot pattern used for the OFDM data symbols.
Page 134 6.2.2.3 DVB-S2 (Optional) Figure 6.12: Web Server RF screen (DVB-S2) • Frequency (editable parameter): Introduce the frequency at which the signal is being transmitted. • Output Mode (eligible parameter): Specify the output mode. The available options are: ▪ Low Carrier HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 135 ▪ Carrier ▪ Modulator ON • Power (editable parameter): Specify the power at which the signal is being transmitted. • Mod / FEC (eligible parameter): Introduce the constellation and LDPC FEC value of the transmitted signal. (Constellation options are: QPSK, 8PSK, 16 APSK and 32 APSK) (LDPC FEC options are: 1/4, 1/3, 2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9, 9/10).
Page 136 • BUC LO (eligible parameter): BUC LO is used in the transmission (uplink) of satellite signals. It converts a band of frequencies from a lower frequency to a higher frequency. In this option, the user can choose the local oscillator of the BUC.
Page 137 6.2.2.4 DVB-S Figure 6.13: Web Server RF screen (DVB-S) • Frequency (editable parameter): Introduce the frequency at which the signal is being transmitted. • Output Mode (eligible parameter): Specify the output mode which can be: Low Carrier, Carrier or Modulator ON. •...
Page 138 • Bandwidth (reading parameter): In this field, the bandwidth of the transmitted signal is displayed according to the Symbol Rate and Roll Off parameters used. • TS Bitrate (reading parameter): In this field it is displayed the bitrate of the transmitted signal according to the modulation parameters used.
Page 139: Unit
6.2.3 UNIT Figure 6.14: Web Server UNIT screen HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 140 6.2.3.1 LEDs Status (reading parameters) • ON/OFF: ▪ If the Led is off the equipment is not being fed. ▪ The Led lights up in green when the equipment is turned on. ▪ If the Led is orange, the equipment is in standby mode. •...
Page 141 • No KLV. There is no KLV embedded on SDI input signal. • No Audio Embedded. There is no Audio embedded on SDI input signal. 6.2.3.3 Monitor • Voltage (reading parameter): In this field, the voltage of the Transmitter is shown. •...
Page 142 6.2.3.5 Miscellaneous • Night Mode (eligible parameter): There are four possible states for the night mode. If the night mode is in state 0 then the light on the screen will be brighter than if it is in state 1. If the state is 3 then, the light on the screen will be the dimmest of the four possible states.
Page 143: Web Page Setup Notes
6.3 Web Page Setup Notes For the data to be refreshed correctly, you may need to change some settings on your browser. Please follow these instructions carefully. For Google Chrome: Click Chrome menu situated in the toolbar of the browser. Select tools.
Page 144: Snmp
Station Figure 6.15: SNMP management system The SNMP agent used is MIB-II compliant. The SVP MIB (Management Information Base) provides a standard representation of the SNMP Agent’s available information and where it is stored. The MIB is defined according to the ASN.1.
Page 145: Chapter 7: Block Diagram
Chapter 7: Block Diagram 7.1 Introduction In this chapter, the block diagram of the HDT-02 Transmitter is explained. This diagram has several parts related to the HDT-02 internal performance which are shown in blocks with different inputs and outputs. In the first part, the outputs from the video encoder, Audio 1 encoder and Audio 2 encoder go to the multiplexer to obtain one common output signal.
Page 146 Figure 7.1: HDT-02 Block Diagram HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 147: Chapter 8: Equipment Installation
8.2 Connections Every connection of the HDT-02 camera Transmitter is on the rear panel, except for the RF antenna connections that are on the front panel. All the Lemo part numbers and pinout refer to the connector of the HDT-02.
Page 148 Remote Output RF Output RF Output Power DC HDMI 1-2 ASI Input Input SDI Input ASI Output GPS RF L-Band RF output output Figure 8.2: Rear and front view of the HDT-02 HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 149 LED of the equipment blinks GREEN and RED showing an alarm. The power source of the HDT-02 should be the same as the one used for the PA. Both should be turned on and off simultaneously. They must use the same breaker.
Page 150 8.2.2 BUC-PA-CC Connector The HDT-02 Transmitter incorporates an input to control remotely the PA-10 Power Amplifier. BUC-PA-CC Connector technical features Item Features Connector Label BUC-PA-CC Connector type 7 pin Lemo 0B Part number (HDT-02) ECG.0B.307.CLV Part number (cable connector) FGG.0B.307.CLAZ Table 8.3: BUC-PA-CC Connector features...
Page 151 If the Transmitter is configured to be used with PA Power Amplifiers, the communication and control is made through a RS232 port. The pinout of the cable which interconnects the HDT-02 Transmitter and PA Power Amplifier is indicated in the following table:...
Page 152 The RTC is supplied by the Transmitter device to the device input power supply. RTC Connector technical features Item Features Connector Label Connector type 4 pin Lemo 0B Part number (HDT-02 connector) EGG.0B.304.CLV Part number (Cable connector) FGG.0B.304.CLAZ Table 8.7: RTC Connector technical features Pinout of the connector Description RS 485 (+) RS 485 (-) 9 to 36 V.DC...
Page 153 8.2.3.1 HDT-02 to RTC-01 and RTC-02 Cable pinout In the following table, it is indicated the cable pinout that must be followed for the connection between the HDT-02 RTC connector to the RTC-01 and RTC-02 HDT Transmitter input connector. This cable is used for the communication between the HDT-02 and RTC Remote Control.
Page 154 Pinout of the cable connector (Watched from the soldering side) Description Video CVBS +5V GPS GPS DATA Table 8.11: GPS/CVBS cable connector pinout HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 155 8.2.5 Video inputs HDMI 1 and 2 connection technical features Item Features HDMI 1 Connector Label HDMI 2 Connector type Type A Table 8.12: HDMI input signal connection features SDI connection technical features Item Features Connector Label Connector type Female BNC Impedance 75 Ω...
Page 156 8.2.6 Audio inputs The HDT-02 Transmitter has four possible Audio inputs: • 2 Audio inputs to insert 2 stereo channels AES/EBU, 2 stereo or 4 mono analogue (mic phantom, mic dynamic and line) signals where connections are made using two 5 pin Lemo 0B connectors on equipment’s rear panel.
Page 157 8.2.7 Remote This connection allows the user to monitor and setup any parameter of the Transmitter through Web Browser and SNMP through the network and the access to the web browser to change or modify any transmission parameter. The connector used is a RJ-45. Remote connection technical features Item Features...
Page 158 8.2.9 RF output The antenna or Power Amplifier is directly connected to the female N-type or SMA-type connectors on the front panel of the HDT-02 camera Transmitter. There are up to six connectors available, each one for a different frequency band (type N for the 1-2.8 GHz band, type SMA for 3-4 GHz band, type N for...
Page 159 Item Features Connector label L-Band Connector type SMA female Output frequency range L band Impedance 50 Ω Output power Maximum: +5dBm Item Features Connector label 70 MHz Connector type SMA female Output frequency range 70 MHz Impedance 50 Ω Output power -10 dBm (DVB-T/T2) -14 dBm (DVB-S/S2) Item...
Page 160 ASI output signal type uses 75Ω BNC connector. This connector is placed on Transmitter’s rear panel. It is important that 75 Ω connectors are used. This is because the female output connector of the HDT-02 unit could be damaged because of an impedance mismatch. ASI connection technical features...
Page 161 8.3 Mechanical Accessories In this section, different short of accessories of the HDT-02 H.264 Transmitter are shown. The accessories required by the customer must be defined when the Transmitter is ordered. 8.3.1 Battery Fastening This item allows the connection to the battery (V type or Anton Bauer) to the Transmitter’s case (optional).
Page 162 However, the RTC-02 has been designed for the management of RF channels. This equipment is especially useful in applications where the HDT-02 or HDT- 04 Transmitter is mounted away from the operator and the parameters can’t be modified directly from the front panel.
Page 163 • Actuator This Up/Down switch is used to control the antenna actuator in different systems. With this switch, it is possible to move the antenna up and down remotely. It has also two LEDs to indicate the status of the actuator (Up or Down).
Page 164 Remote Control and the connectors needed. Figure 9.2: RTC-01 rear view 9.2.2.1 HDT Transmitter Connector This connector is used for the communication between the HDT-02 or HDT- 04 Transmitter and the RTC-01 Remote Control. HDT Transmitter connection technical features...
Page 165 Antenna Relay Table 9.2: HDT-02 Transmitter connection pinout 9.2.2.1.1 RTC-01 to HDT-02 Control Cable pinout The pinout of the control cable which connects the RTC-01 with the HDT-02 is shown below: RTC-01 to HDT-02 Control Cable pinout RTC-01 (JD38999/26WA35SN Amphenol) HDT-02 (Lemo FGG.0B.304)
Page 166 9.2.2.2 Actuator Arm power supply input Connector This is the actuator power supply input connector. Actuator arm power supply connection technical features Item Features Connector label PWR 28V. DC Part number E.g. (RTC-02 connector) 851-02E123P50 (Souriau) Part number E.g. (cable connector) 851-06EC123S50 (Souriau) Table 9.4: Power supply connection technical features Pinout of the connector (RTC-01)
Page 167 9.2.2.3 Actuator Arm radar altimeter Connector This connector is used to control the actuator arm from RTC-01 Remote Control and to connect the radar altimeter. Actuator arm and altimeter connection technical features Item Features Connector label ACTUATOR ARM RADAR ALTIMETER Connector type MIL-DTL-38999/24 Part number E.g.
Page 168 Pinout of the connector for Vislink actuator (RTC-01) Description Switch common Retract Extend Actuator power supply output Limit Switch common Altimeter Altimeter Not Used Not Used Not Used Not Used Not Used Table 9.8: Actuator arm connector pinout for Vislink actuator To automatically retract the actuator by the altimeter radar alarm, short pins 7 and 8 of this connector.
Page 169 9.2.4 Brightness control The brightness of the RTC-01’s Leds can be calibrated. To enable calibration mode, follow these steps: 1. Connect the RTC-01 to the Transmitter. 2. Configure the RTC-01 ARM option in Manual mode. 3. Access the Transmitter menu and go to Unit-> Profiles and disable the profiles mode.
Page 170 Figure 9.3: RTC-02 front view There are several buttons in the front panel of the device that allows controlling the HDT-02 and HDT-04 Transmitter remotely. • Arm section: ▪ ARM This button switches between manual operation of the arm and automatic operation controlled by the altimeter radar alarm.
Page 171 • GROUP This button configures the HDT-02 to work with group A or group B channel presets. Once the group is selected, the channel preset is changed with the CH button.
Page 172 Antenna Relay Table 9.10: HDT-02 Transmitter connection pinout 9.3.2.1.1 RTC-01 to HDT-02 Control Cable pinout The pinout of the control cable which connects the RTC-02 with the HDT-02 is shown below: RTC-01 to HDT-02 Control Cable pinout RTC-02 (JD38999/26WA35SN Amphenol) HDT-02 (Lemo FGG.0B.304)
Page 173 9.3.2.2 Actuator Arm power supply input Connector This is the actuator power supply input connector. Actuator arm power supply connection technical features Item Features Connector label PWR 28V. DC Part number E.g. (RTC-02 connector) 851-02E123P50 (Souriau) Part number E.g. (cable connector) 851-06EC123S50 (Souriau) Table 9.12: Power supply connection technical features Pinout of the connector (RTC-02)
Page 174 9.3.2.3 Actuator Arm radar altimeter Connector This connector is used to control the actuator arm from RTC-02 Remote Control and to connect the radar altimeter. Actuator arm and altimeter connection technical features Item Features Connector label ACTUATOR ARM RADAR ALTIMETER Connector type MIL-DTL-38999/24 Part number E.g.
Page 175 Pinout of the connector for Vislink actuator (RTC-02) Description Switch common Retract Extend Actuator power supply output Limit Switch common Altimeter Altimeter Not Used Not Used Not Used Not Used Not Used Table 9.16: Actuator arm connector pinout for Vislink actuator To automatically retract the actuator by the altimeter radar alarm, short pins 7 and 8 of this connector.
Page 176 3. Access the Transmitter menu and go to Unit-> Profiles and disable the profiles mode. The calibration options are the following ones: a. Maximum brightness: Press ‘Group’ button while you increase or decrease the value with the ‘UP’ and ‘DOWN’ buttons. b.
Page 177 Chapter 10: Mechanical Dimensions In this chapter, the mechanical drawing of the units described in this manual are included. HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 178 10.1 HDT-02 Transmitter HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 179 10.2 PA Standard and PA Ultralinear Power Amplifiers HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 180 10.3 PA Standard and PA Ultralinear Power Amplifiers Installation ISO 14581 M4 (10 Units) HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 181 10.4 RTC-01 Remote Control HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 182 10.5 RTC-02 Remote Control HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 183 10.6 CLTX-01 Support HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 184 10.7 CLTX-02 Support Installation ISO 14581 M4 (8 Units) ISO 14581 M3x8 (6 Units) HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 185 10.8 GPS-01 Antenna & Receiver HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 186 ✓ ✓(*) connection Table 10.1. Maintenance Schedule table (*) If the HDT-02 installation is constantly changed, prior to each use make sure the RF output is loaded. 11.2 Maintenance Procedures Quarterly, the following inspections should be done: • Inspect antenna installation to ensure all components are secure and in good conditions.
Page 187 Before any Product is returned for repair and / or adjustment, authorization from SVP Broadcast Microwave for the return and instructions as to how and where the Product should be shipped must be obtained. The Product type, serial numbers, and a full description of the circumstances giving rise to the warranty claim should be included.
Page 188 Product. By returning a Product, the owner grants SVP Broadcast Microwave permission to open and inspect the returned Product to determine the cause of failure, and SVP Broadcast Microwave’s determination with regard hitherto shall be final.
Page 189 The equipment has a two-year warranty that covers any failure or manufacturing defect, providing it is not handled by anyone other than SVP Broadcast Microwave personnel and the warranty seal has not been broken. HDT-02_H.264 High Definition Digital Camera Transmitter...
Page 190 Low intermodulation and high reliability make these Amplifiers especially interesting for broadcast and airborne applications. This PA can be controlled from the HDT-02 remotely thanks to the RS-232 communication. An excellent design, mechanical and electronic assembly make the PA a robust and reliable solution.
Page 191 Max. Output power 10 W linear in 2 GHz 5 W linear in 3 GHz Selectable output power level 3 output power levels selectable from the HDT-02 Frequency range 2,000 – 2,400 MHz 2,300 – 2,700 MHz 3,300 – 3,600 MHz Input level + 10 dBm max.
Page 192 PA Standard Item Features Frequency range/Max power 1,300 – 1,550 MHz/ 4W 2,000 – 2,500 MHz/ 4W 4,400 – 5,000 MHz/ 10W 5,000 – 5,300 MHz/ 10W 6,800 – 7,300 MHz/ 2W Input level Desired input range must be specified on the purchase order Harmonics suppression >60 dB typ.
Page 193 A.2.2 Block Diagram This section provides the block diagram of the PA Standard and PA Ultralinear Power Amplifiers showing the internal performance of the device. Figure A.2: PA Standard Block Diagram HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 194 Figure A.3: PA Ultralinear Block Diagram HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 195 A.2.3 Equipment Installation A.2.3.1 Introduction This section provides information for the Power Amplifiers installation such as connections available in the front panel of the PA Amplifiers and their pinout, and connectors needed. A.2.3.2 Connections The connections of the PA Power Amplifier are distributed on the front panel of the device.
Page 196 The PA-10 Power Amplifiers incorporate an input to be controlled remotely by a HDT-02 Transmitter. This Remote Control allows switch ON/OFF, send the Power Direct, Power Reverse and Alarms to the HDT-02 Transmitter and enable the configuration of the output power. Remote Control connection technical features...
Page 197 Pin 5 Pin 5 Pin 7 Pin 2 Table A.6: Remote Control Cable Pinout A.2.3.2.3 RF input Here, the RF signal which comes from the HDT-02 Transmitter is connected. RF IN connection technical features Item Features Connector label RF IN (TX)
Page 198 • Remote Control cable (6 pin MIL-DTL-38999 to 7 pin Lemo) • Antenna The HDT-02 Transmitter is powered throughout the Lemo 1B connector and the Power Amplifier is powered throughout the SOURIAU connector. The input level is indicated in each connector's label.
Page 199 A.3.1 PA Configuration The following menu screen and figures show the different steps that must be followed when the connection between the HDT-02 Transmitter and the PA amplifier is established. First, connect the two equipment as it is shown below: Figure A.6: Connection between the HDT-02 and the PA...
Page 200 Once the connection is established, go to the main menu of the HDT-02 Transmitter pressing the cross button and select the RF option: Figure A.7: Main Menu Go to DVB-T or DVB-T2 option and press the OK button to configure the parameters related to the PA amplifier.
Page 201 Finally, return to the main screen and two new parameters will appear in the second line of the screen. Figure A.9: DVB-T2 and DVB-T main screen The meaning of these parameters is shown below: • P: The level of the transmitted power measured in dBm. •...
Page 202 • When the LED remains switched off for long, but sometimes blinks. It means that the amplifier has been switched off remotely by the HDT-02 or by the RTC-01/RT-02 Remote Controls. Anyway, when the POWER DC LED is on, the amplifier is powered.
Page 203 A.4 Intermodulation This picture shows the performance of the intermodulation with the equipment operating at 10 W. Figure A.10: Intermodulation at 2 GHz frequency band with precorretion HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 204 B.1 Introduction The new PAC is a clip-on amplifier which works in the 2 GHz band. It is used together with SVP Broadcast Microwave’s camera Transmitters, allowing the coverage of wider areas. It can be used with nearly all camera Transmitters as it can have V battery adapter plates.
Page 205 B.2 Technical Features Item Features Frequency range: 2,0 to 2,5 GHz band (Other frequency bands upon request) Output Power: Input level: 10 to 100 mW (10 to 20 dBm) ALC: 10 dB Gain flatness: 0,5 dB (over full band) Harmonics suppression: >60 dB Output IP3: +58 dBm...
Page 206 B.3 Connections Every connection of the PAC Clip-on amplifier is shown in the figure below. Figure B.1: PAC Connections The following figures show the PAC front and rear panels. Connections mentioned in the upper figure are shown below. Figure B.2 Front panel of the PAC Amplifier Figure B.3 Rear panel of the PAC Amplifier Technical features of each connection are described in the following sections.
Page 207 • 3 and 4 pins --> from 11 to 16 V B.3.2 RF Input The RF input of the HDT-02 camera Transmitter is connected to the RF input of the PAC amplifier. A very low loss cable should be used to make this connection.
Page 208 B.3.3 RF Output The antenna is directly connected to the RF output of the amplifier. The amplifier has a Led in the front panel which indicates the RF power output. The RF output is protected against polarity reverse by a circulator. Item Features Connector label...
Page 209 Annex C: AVF Flexible Antenna C.1 Description AVF antenna, which is a linear omnidirectional flexible antenna, is suitable for the 1.3 to 7.5 GHz frequency band. It is very useful for mobile camera links and it is the most appropriate antenna for live broadcast. The design of this antenna makes it very suitable for transmission when using a camera Transmitter, because the radiating element is above the cameraman’s head.
Page 210 C.2 Technical Specifications Item Feature Frequency range 1.3 to 7.5 GHz (Different bands available) Gain 3 dBi Polarization Linear (Vertical) Beamwidth 76ºV and Omnidirectional H Bandwidth Depends on the frequency range Connector N male Temperature -30º a +70ºC Size / Weight 290mm x D22mm / 158 gr.
Page 211 Figure C.3: Horizontal and Vertical Radiation patterns HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 212 Annex D: GPS-01 Receiver D.1 Description Our GPS receiver is a compact and easy solution to know where the Transmitter is located. It has a direct connection to the Transmitter which sends this GPS information to the receiver to track the Transmitter automatically. The Transmitter is responsible for the power supply of the GPS.
Page 213 D.2 Technical Specifications Item Feature Power Supply +5V (provided by the Transmitter) Dimension L: 47mm, W: 38mm, H: 16mm Receiving frequency 1,575.42 MHz Mounting Magnetic base Sensibility -158 dBm Start-up time 1 sec typical (hot start) 35 sec. Typical (warm start) 41 sec.
Page 214 Antenna Tx Parabolic antenna with positioner RX-GPS Antenna HDT-02 TX-GPS Antenna Receiver RS-232 at 4800 baud PC with Google Maps Figure D.2 Link with GPS scheme HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 215 Annex E: Modulation Standards This chapter describes the DVB-T/T2 and DVB-S/S2 standards, as well as their features and the differences between them. E.1 DVB-T DVB-T is a technical standard that specifies the framing structure, channel coding and modulation for digital terrestrial television (DTT) broadcasting.
Page 216 E.2 DVB-T2 DVB-T2 is the world’s most advanced digital terrestrial television (DTT) system, offering more robustness, flexibility and at least 50% more efficiency than any other DTT system. It supports SD, HD, UHD, mobile TV, or any combination thereof. E.2.1 How Does It Work Like its predecessor, DVB-T2 uses OFDM (orthogonal frequency division multiplex) modulation with a large number of subcarriers delivering a robust signal, and offers a range of different modes, making it a very flexible...
Page 217 This new feature provides additional robustness for low order constellations. Figure E.2: Constellation Rotation E.2.3 DVB-T vs DVB-T2 Next, it is shown a comparison table between the two existing DVB terrestrial standards. The new features of the DVB-T2 standards respect to the DVB-T are in bold.
Page 218 E.3 DVB-S DVB-S is the first generation of a standard for digital broadcasting via satellite. E.3.1 How Does It Work DVB-S was designed to carry MPEG-2 transport streams over satellite. MPEG- 2 transport streams typically carry one or several television or radio services multiplexed into a synchronous bit stream.
Page 219 E.4 DVB-S2 DVB-S2 is a digital satellite system developed by the DVB Project. It makes use of the latest modulation and coding techniques deliver performance that approaches theoretical limit for such systems. E.4.1 How Does It Work The original DVB-S system, on which DVB-S2 is based, specifies the use of QPSK modulation along with various tools for channel coding and error correction.
Page 220 Variable Coding and Modulation (VCM) (Used in the HRD-106 and IRD-70) Variable Coding and Modulation is a mode of operation that allows different modulation parameters to be applied to the different DVB-S2 streams of a multistream signal. If each of the streams are intended for a different receiving site, VCM allows optimizing the parameters of each stream to get the best performance for each receive station, instead of dimensioning the whole link according to the smallest station.
Page 221 Figure E.7: ACM mode Another features implemented in the DVB-S2 standard are: • Sharper roll-off factors which results in a direct gain of bandwidth. • The ability to carry several signals on a single satellite carrier, without multiplexing in front of the modulator. This is called Multi-Stream. •...
Page 222 It is advisable to use pilots in the following cases: - In ACM mode (always on). - When a noticeable amount of phase noise is present. - At low data rates. - When distortion is present on the signal for example due to non- linearity.
Page 223 Main differences between DVB-S and DVB-S2 DVB-S DVB-S2 Meant for broadcast only Fully transparent to all data Fixed 188 byte/packets Baseband in 16 or 64 kbps One TS/carrier CCM/MultiStream – VCM – ACM RS and Viterbi coding LDPC and BCH coding Need of high RX margin Can work within noise floor QPSK / QPSK-8PSK-16QAM...
Page 224 Glossary AES/EBU Audio Engineering Society/European Broadcasting Union Multisectorial Antenna APSK Amplitude and phase-shift keying or asymmetric phase-shift keying Asynchronous Serial Interface Bayonet Neill-Concelman BitRate CA-BISS Conditional Access-BISS COFDM Coded Orthogonal Frequency Division Multiplexing Direct current or Down Converter DVB-T Digital Video Broadcasting – Terrestrial DVB-T2 Digital Video Broadcasting –...
Page 225 Low Delay Light-Emitting Diode Low Noise Amplifier MPEG Moving Picture Experts Group NLOS No Line of Sight Phase Alternating Line Phase Locked Loop Packet Identification Quadrature Amplitude Modulation QPSK Quadrature Phase-Shift Keying RadioFrequency Remote Control Standard Delay Serial Digital Interface SNMP Simple Network Management Protocol Thin-Film Transistor...
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Page 231 Notes HDT-02_H.264 High Definition Digital Camera Transmitter MANUAL V9.9...
Page 232 Final note SVP Broadcast Microwave S.L. is constantly striving to improve all of its products. Therefore, we ask you to understand that modifications may occur in designs, equipment and technology. Consequently, we do not accept responsibility for any variations of information, illustrations or descriptions contained in this manual.
Page 233 SVP Broadcast Microwave reserves the right to make changes to this manual and to the equipment without prior notice. C/Zubiaurre 7 bajo 48215 Iurreta Vizcaya – Spain Tel: (+34) 94620 3722 info@svpbm.com www.svpbm.com...

SVP HDT-02 User Manual

Chapter 1: Introduction

Chapter 2: Technical Features

Chapter 3: How to Order

Chapter 4: Transmitter Operation and Menus

Chapter 5: GPS Application

Chapter 6: Web Server

Chapter 7: Block Diagram

Chapter 8: Equipment Installation

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