Teledyne LeCroy T3PS Series User Manual

Programmable dc power supply

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Summary of Contents for Teledyne LeCroy T3PS Series

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Page 5 This chapter contains important safety instructions that you must follow during operation and storage. Read the following before any operation to insure your safety and to keep the instrument in the best possible condition. These safety symbols may appear in this manual or on the instrument.
Page 6 Do not dispose electronic equipment as unsorted municipal waste. Please use a separate collection facility or contact the supplier from which this instrument was purchased. Do not place any heavy object on the T3PS. Avoid severe impact or rough handling that leads to damaging the T3PS.
Page 7 Use proper power cord. Maintain ground. The AC inlet ground is connected to the frame of the instrument. Connect line cords only to outlets with safety ground contacts. Disconnect the power cord before cleaning. Use a soft cloth dampened in a solution of mild detergent and water.
Page 8 Location: Indoor Temperature: -25°C to 70°C Relative Humidity: 90%(no condensation) Do not dispose this instrument as unsorted municipal waste. Please use a separate collection facility or contact the supplier from which this instrument was purchased. Please make sure discarded electrical waste is properly recycled to reduce environmental impact.
Page 9 When using the power supply in the United Kingdom, make sure the power cord meets the following safety instructions. As the colours of the wires in main leads may not correspond with the coloured marking identified in your plug/appliance, proceed as follows: The wire which is coloured Green &...
Page 10 This chapter describes the power supply, including its main features and front / rear panel introduction. After going through the overview, please read the theory of operation to become familiar with the operating modes, protection modes and other safety considerations. Series lineup ..................11 Main Features ...................11 Accessories ..................12...
Page 11 The T3PS series consists of 3 models, covering a number of different current, voltage and power capacities: High power density: 1500W in 1U Universal input voltage 85-265Vac, continuous operation. Output voltage up to 60V, current up to 200A. Active power factor correction. Parallel master/slave operation with active current sharing.
Page 12 CV, CC priority start function. (Prevents overshoot with output ON) Built-in RS-232/485, LAN and USB interface. Analog output programming and monitoring. Before using the T3PS power supply unit, check the package contents to make sure all the standard accessories are included. 1.800.561.8187 information@itm.com www.
Page 13 Display Area Voltage Current VO LTAGE CURRENT Lo ck/ Local P ROT Function Test S et Shi ft Ou tp ut : Long Push Unlock A LM_ CL R 9 10 12 13 Used to turn the power on/off. USB A port for data transfer, loading test scripts etc.
Page 14 Used to lock all front panel Lock/Local buttons other than the Output Button or it switches to local Unlock mode. (Long push) Used to unlock the front panel buttons. Used to set and display OVP, OCP PROT and UVL. ALM_CLR (Long push) Used to release protection functions that have been activated.
Page 15 Used to enable the functions that are written in blue characters below certain buttons. Used to turn the output on or off. Lights in green when the output is 1.800.561.8187 information@itm.com www. .com...
Page 16 VOLTAGE CURRENT Displays the voltage or the parameter number of a Function parameter. Displays the current or the value of a Function parameter. Lights in green during constant voltage mode. Lights in green during constant current mode. Lights up when CV Slew Rate Priority is enabled. Lights up when the LAN interface is connected.
Page 17 Lights up when CC Slew Rate Priority is enabled. Lights in green when the memory value are being recalled or saved. Lights in green when the memory value are being recalled or saved. Lights in green when the memory value are being recalled or saved.
Page 18 DC OUTPUT RS485 / 232 ANALOG PROGRAMMING 100 240V S LS 47 63Hz 2000VA MAX. AC INPUT REMOTE SENSE Wire clamp connector. AC INPUT Output terminals for 6V to 60V models. USB port for controlling the T3PS remotely. RS 485 / 232 Ethernet port for controlling the T3PS remotely.
Page 19 RS485 support via user supplied cable with DB9 / RJ45 connectors wired according to the table on page 124. RJ-45 connector that is used to daisy chain power supplies with the Remote-IN port to form a communication bus. Serial link cable with RJ45 shielded connectors wired according to the table on page 129.
Page 20 T3PS60251P T3PS40381P T3PS062001P 1.800.561.8187 information@itm.com www. .com...
Page 21 When the power supply is operating in constant current mode (CC) a constant current will be supplied to the load. When in constant current mode the voltage output can vary, whilst the current remains constant. When the load resistance increases to the point where the set current limit (I ) can no longer be sustained the power supply switches to CV mode.
Page 22 Conversely the power supply will operate in CC mode when the load resistance is less than the critical resistance. In CC mode the current output is equal to I and the voltage output is less than Crossover >R point <R 1.800.561.8187 information@itm.com www.
Page 23 The T3PS has selectable slew rates for CC and CV mode. This gives the T3PS power supply the ability to limit the current/voltage draw of the power supply. Slew rate settings are divided into High Speed Priority and Slew Rate Priority. High speed priority mode will use the fastest slew rate for the instrument.
Page 24 be potentially hazardous. In addition, bleed resistors also allow for smoother voltage regulation of the power supply as the bleed resistor acts as a minimum voltage load. The bleed resistance can be turned on or off using the configuration settings. On the T3PS, the internal resistance of the power supply can be user-defined in software.
Page 25 The T3PS power supplies have a number of protection features. When one of the protection alarms is tripped, the ALM icon on the display will be lit and the type of alarm that has been tripped will be shown on the display. When an alarm has been tripped the output will be automatically turned off.
Page 26 AC Fail. This alarm function is activated when a low AC input is detected. Fan failure. This alarm function is activated when the fan RPMs drop to an abnormally low level. Force Shutdown is not activated as a result of the T3PS series detecting an error.
Page 27 on the power supply ammeter. When the power supply is connected to a regenerative load such as a transformer or inverter, reverse current will feed back to the power supply. The T3PS power supply cannot absorb reverse current. For loads that create reverse current, connect a resistor in parallel to the power supply to bypass the reverse current.
Page 28 When the power supply is connected to a load such as a battery, reverse current may flow back to the power supply. To prevent damage to the power supply, use a reverse-current-protection diode in series between the power supply and load.
Page 29 If the positive or negative terminal is connected to the protective ground terminal, the insulation capacity needed for the load and load cables is greatly reduced. The insulation capacity only needs to be greater than the maximum output voltage of the power supply with respect to ground.
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Page 31 Line Voltage Connection..............32 Power Up ..................34 Wire Gauge Considerations ............35 Output Terminals ................36 Using the Output Terminal Cover..........37 How to Use the Instrument ............38 Reset to Factory Default Settings ..........39 View System Version and Build Date ..........40 Setting OVP/OCP/UVL Levels...........
Page 32 The T3PS power supplies use a universal power input that can be used with 100 and 240 Vac systems. To connect or replace the power cord (user supplied, specification below), use the procedure below: 1. Turn off the power switch and unplug the power from the socket.
Page 33 4. Remove the AC power cord wires with a flat head screwdriver. 1. Connect the AC power cord wires to the AC input terminals. Black/Brown Line (L) White/Blue Neutral (N) Green /Green & Yellow Ground ( 2. Make sure the sheath is tightened to the lock nut.
Page 34 1. Connect the power cord to the universal power input. 2. Press the POWER switch on. 3. The power supply will show the Power On settings (Pon) at start up. If no Power On settings are configured, the T3PS will recover the state right before the power was last turned OFF.
Page 35 Before connecting the output terminals to a load, the wire gauge of the cables should be considered. It is essential that the current capacity of the load cables is adequate. The rating of the cables must equal or exceed the maximum current rated output of the instrument.
Page 36 screw. Even if noise is not a concern, the load and remote sense wires should be twisted-pairs to reduce coupling, which might impact the stability of the power supply. The sense leads should be separated from the power leads. Before connecting the output terminals to the load, first consider whether voltage sense will be used, the gauge of the cable wiring and the withstand voltage of the cables and load.
Page 37 5. Connect the positive load cable to the positive output terminal and the negative cable to the negative output terminal. 6. Reattach the output terminal cover. 1. Partially unscrew the 2 screws beside the terminals. 2. Line-up the notches in the cover with the 2 screws.
Page 38 3. Tighten the screws to secure the cover over the terminals. Reverse the procedure to remove the terminal covers. The T3PS power supplies use a novel method of configuring parameter values only using the voltage or current knobs. The knobs are used to quickly edit parameter values at 0.01, 0.1 or 1 unit steps at a time.
Page 39 2. Turn the Voltage knob till 0.05 volts is shown on the voltage display. 3. Repeatedly press the Voltage knob until the most significant digit is highlighted. This will allow the voltage to be edited in 1 volt steps. 4. Turn the Voltage knob until 10.05 is shown. The F-88 configuration setting allows the T3PS to be reset back to the factory default settings.
Page 40 3. Rotate the Voltage knob to change Voltage the F setting to F-88 (Factory Set Value). 4. Use the Current knob to set the Current F-88 setting to 1 (Return to factory default settings). 5. Press the Voltage knob to confirm. Voltage ConF will be displayed when it is configuring.
Page 41 3. Rotate the Voltage knob to change the F setting to F-89 (Show Version). 4. Rotate the Current knob to view the version and build date for the various items. 0-XX: Version (1/2) 1-XX: Version (2/2) 2-XX: Build On-Year. (1/2) 3-XX: Build On-Year.
Page 42 5. Press the Function key again to Function exit. The Function key light will turn off. Main Program Version: V01.00, 2013/06-01 0-01: Version 1-00: Version 2-20: Build On-Year. 3-13: Build On-Year. 4-06: Build On-Month. 5-01: Build On-Day. Keyboard CPLD Version: 0x030C 6-03: Keyboard CPLD Version.
Page 43 Test Command Version: V01:00, 2013/06/01 G-01: Test Command Version. H-00: Test Command Version. I-20: Test Command Build On-Year. J-13: Test Command Build On-Year. K-06: Test Command Build On-Month. L-01: Test Command Build On-Day. Reserved: M-XX: Reserved. N-XX: Reserved. Option version O-XX: Option version.
Page 44 This section describes the basic operations required to operate the power supply. Setting OVP/OCP/UVL C.V. priority C.C. priority Save/Recall s 53/53 Voltage Sense Before operating the power supply, please see the Getting Started chapter, page 10. The OVP level and OCP level has a selectable range that is based on the output voltage and output current, respectively.
Page 45 Example: OVP alarm Before setting the protection settings: Ensure the load is not connected. Ensure the output is turned off. 1. Press the PROT key. The PROT key lights up. 2. The OVP protection function will be displayed on the voltage display and the setting will be displayed on the current display.
Page 46 Protection Protection function setting 3. Use the Voltage knob to select a Voltage protection function. OVP, OCP, UVL 4. Use the Current knob to set the Current protection level for the selected function. 5-220 0.6-6.6 0-6.3 3.8-41.8 4-44 0-42 2.5-27.5 5-66 0-63 5.
Page 47 When setting the power supply to constant voltage mode, a current limit must also be set to determine the crossover point. When the current exceeds the crossover point, the mode switches to C.C. mode. For details about C.V. operation, see page 21. C.C. and C.V. mode have two selectable slew rates: High Speed Priority and Slew Rate Priority.
Page 48 4. Use the Current knob to set the F- Current 03 setting. Set F-03 to 0 (CV High Speed Priority) or 2 (CV Slew Rate Priority). 0 = CV High Speed Priority 2 = CV Slew Rate Priority 5. Press the Voltage knob to save the Voltage configuration setting.
Page 49 9. Use the Voltage knob to set the voltage. 10. Press the Output key. The Output ON LED becomes lit. When setting the power supply to constant current mode, a voltage limit must also be set to determine the crossover point. When the voltage exceeds the crossover point, the mode switches to C.V.
Page 50 Before setting the power supply to C.C. mode, ensure: The output is off. The load is connected. 1. Press the Function key. The Function Function key will light up. 2. The display will show the function (F-01) on the voltage display and the setting for the function in the current display.
Page 51 6. If CC Slew Rate Priority was chosen as the operating mode, set F-06 (Current Slew Rate Up) and F-07 (Current Slew Rate Down) and save. 7. Press the Function key again to exit the configuration settings. The Function key light will turn off. 8.
Page 52 CC will become illuminated (right) VOLTAGE CURRENT The panel lock feature prevents settings from being changed accidentally. When activated, the Lock/Local key will become illuminated and all keys and knobs except the Lock/Local key and Output key (if active) will be disabled. If the instrument is remotely controlled via the USB/LAN interface, the panel lock is automatically enabled.
Page 53 The T3PS has 3 dedicated keys (M1, M2, M3) to save the set current, set voltage, OVP, OCP and ULV settings. 1. Press the SHIFT key. The shift key Shift will light blue. 2. Hold the desired memory key for >3 seconds (M1, M2, M3).
Page 54 3. When the setup is recalled the setup will be loaded and the memory number will be shown on the display. Recalled setup The T3PS power supplies can be operated using local or remote voltage sense. By default the T3PS ships configured for local sense. The Remote Sense connector includes a detachable plug to facilitate making the sense connections.
Page 55 +S: Remote(+) sense +LS: Local (+) sense NC: Not connected -LS: Local (-) sense -S: Remote (-) sense 1. Place the cover over the remote sense connector. 2. Secure the cover with the provided screw. M3x8L Pan Head Screw 1.800.561.8187 information@itm.com www.
Page 56 When using local sense, the sensing terminals are connected to the local sense terminals (via the local sense connections) and thus do not compensate for any possible voltage drop that is seen on the load cables. Local sense is only recommended when the voltage drop is of no consequence or for load-current applications.
Page 57 1. Connect the S+ terminal to the positive potential of the load. Connect the S- terminal to the negative potential of the load. Page 54 2. Operate the instrument as normal. See the Basic Operation chapter for details. 1. Connect the S+ terminals to the positive potential of the load.
Page 58 T3PS #1 Load Page 54 Output Input Output Input T3PS #2 Output Output 2. Operate the instrument as normal. See the Parallel Operation chapter for details. 1. a. Connect the 1 S+ terminal to the positive potential of the load. b.
Page 59 T3PS #1 Load Output Input Output Input T3PS #2 Output Output Shield the sense wires and connect the shield to the chassis ground. Capacitor T3PS Load Twisted pair Twisted pair 1.800.561.8187 information@itm.com www. .com...
Page 60 This section describes the basic operations required to operate the power supply in series or parallel. Operating the T3PS series in parallel increases the total current output of the power supply units. When used in series, the total output voltage of the power supplies can be increased.
Page 61 When connecting the T3PS power supplies in parallel, up to 4 units can be used in parallel and all units must be of the same model with similar output settings. To use the power supplies in parallel, units must be used in a aster-slave configuration.
Page 62 Ext-V Ext-R Master VMON IMON Slave Load Slave Slave Display Only the master unit will display the voltage and current. OVP/ OCP/UVL Slave units follow the settings of the master when OVP/OCP/UVL is tripped on the master unit. Remote monitoring Voltage monitoring (VMON) and current monitoring (IMON) are only supported on the master unit.
Page 63 Parallel Calibration The parallel calibration function can be used to offset cables losses. External Voltage and Resistance Control Voltage/Resistance controlled remote control can only be used with the master unit. The full scale current (in parallel) is equivalent to the maximum external voltage or resistance. Internal Resistance For 2 units in parallel, the internal resistance is actually half of the setting value.
Page 64 To operate the power supplies in parallel with the analog connectors, connect the analog connectors on the master and slave units as shown in the diagrams below. MASTER SLAVE #1 PRL OUT+ PRL IN+ A COM PRL IN- Status COM1 A COM OUT ON Status OUT ON/OFF CONT...
Page 65 1. Ensure the power is off on all power supplies. 2. Choose a master and a slave unit(s). 3. Connect the analog connectors for the master and slave units as shown above. 4. Remove the Output Terminal covers. 5. Connect the master and slave unit in parallel as shown above.
Page 66 Before using the power supplies in parallel, the master and slave units need to be configured. 1. Configure the OVP, OCP and ULV settings for the master unit. 2. For each unit, hold the Function key while turning the power on to enter the power on configuration settings.
Page 67 Only operate the power supplies in parallel if the units are configured correctly. 1. Turn on the master and slave units. The slave unit(s) will show a blank display. 2. Operation of all units is controlled via the master unit. Operation of the master unit is the same as for a single unit.
Page 68 The F-16 function setting can be used to calibrate the output of T3PS units connected in parallel. If you feel the accuracy is not good enough when you measure the accuracy in parallel mode, the parallel calibration can be used to get better measurement accuracy.
Page 69 5. On the master unit, set F-16 (Auto Calibration Parallel Control) to 2 to turn on the parallel calibration. Calibration will begin immediately. 6. Whilst calibration is being performed, WAIT will be displayed on the master screen. Calibration will take a few moments. 7.
Page 70 When connecting T3PS power supplies in series, up to 2 units can be used in series and all units must be of the same model. When operated in series, the power supplies can be used to increase the voltage output or setup the power supplies to output both positive and negative polarities.
Page 71 OVP/OCP/UVL OVP, OCP and UVL level for each unit must be set separately. The OVP and OCP protections are tripped independently on the master and slave. Remote monitoring Voltage monitoring (VMON) and current monitoring (IMON) should be performed on both units. The VMON voltage represents the voltage of that particular unit.
Page 72 When using analog control connector to program or measure with T3PS power supplies connected in series, make sure that each unit is separated and floating from each other. When T3PS power supplies are connected in series and the load or one of the output terminals is grounded, no point on the output shall be more than 600VDC above or below chassis ground.
Page 73 1. Ensure the power is off on both power supplies. 2. Connect the master and slave unit in series as shown above to either increase the voltage output or to create a positive and negative output. Remember that how the units are grounded depends on the configuration of the series connection.
Page 74 Before using the power supplies in series, the master and slave units need to be configured. 1. Configure the OVP, OCP and UVL settings for each unit. 2. For each unit, hold the Function key while turning the power on to enter the power on configuration settings.
Page 75 1. Turn on both units. When connected in series unit will only show the voltage and current of their own unit. 2. Operation of both units is the same as for a single unit. Each unit will only draw as much power as is programmed.
Page 76 Configuration Table.................77 Normal Function Settings ..............82 Interface Configuration Settings ...........85 USB Settings ................85 LAN Settings ...............86 UART Settings ..............87 System Settings .................88 Power On Configuration Settings..........89 Trigger Input and Output Configuration Settings .....91 Special Function ................92 Setting Normal Function Settings..........93 Setting Power On Configuration Settings ........94 1.800.561.8187 information@itm.com...
Page 77 Configuration of the T3PS power supplies is divided into five different configuration settings: Normal Function, USB, LAN, UART, System Configuration Settings, Power ON Configuration, Trigger Input/Output Configuration Settings and Special Function Settings. Power ON Configuration differs from the other settings in that the settings used with Power ON Configuration settings can only be set during power up.
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Page 82 Delays turning the output on for a designated amount of time. The Delay indicator will light when the Delay time is not 0. Note: The Output ON Delay Time setting has a maximum deviation (error) of 20ms. The Output ON Delay Time setting is disabled when the output is set to external control.
Page 83 Selects High Speed Priority or Slew Rate Priority for CV or CC mode. The voltage or current slew rate can only be edited if CC/CV Slew Rate Priority is selected. The ISR indicator will be lit for CC Slew Rate Priority and the VSR indicator will be lit for CV Slew Rate Priority.
Page 84 Sets the internal resistance of the power supply. F-08 0.000 - (Where X.XXX = Rating Voltage / Rating Current) Bleeder control turns ON/OFF the bleeder resistor. Bleeder resistors discharge the filter capacitors after power is turned off as a safety measure. F-09 0 = OFF, 1 = ON, 2 = AUTO Turns the buzzer sound on or off.
Page 85 This function performs offset calibration for parallel control. There must be a short between each unit before starting the calibration. See page 68 for details. F-16 0 = Disable, 1 = Enable, 2 = Execute Parallel Calibration and set to Enable Determines the level of smoothing for the average setting.
Page 86 Parameter 2, 3 and 4 are only supported as use stand alone. 0 = Teledyne LeCroy, 1 = TDK F-26 GEN, 2 = Agilent N5700, 3 = Kikusui PWX, 4 = AMREL SPS Displays the MAC address in 6 parts.
Page 87 Sets the gateway address. The gateway address is split into 4 parts. (F-47 : F-48 : F-49 : F-50) (0-255 : 0-255 : 0-255 : 0-255) Sets the DNS address. The DNS address is split into 4 parts. (F-51 : F-52 : F-53 : F-54) (0-255 : 0-255 : 0-255 : 0-255) Enables web socket connections.
Page 88 UART transmission control protocol TCP settings. This is used primarily for multi-unit remote control, see page 126. F-75 0 = SCPI, 1 = Emulation mode UART Address: this is used to set the address of a unit when using multi-unit remote control, see page 126 for details.
Page 89 5-XX = Build day 6-XX = Keyboard CPLD (1/2) 7-XX = Keyboard CPLD (2/2) 8-XX = Analog board CPLD (1/2) 9-XX = Analog board CPLD (2/2) A-XX = Analog board FPGA (1/2) B-XX = Analog board FPGA (2/2) C-XX = Kernel build year (1/2) D-XX = Kernel build year (2/2) E-XX = Kernel build month F-XX = Kernel build day...
Page 90 Sets the constant current (CC) control mode between local and external voltage/resistance control. For details on external voltage control, see page 104 (External Voltage Control of Current Output) and 108 (External Resistance Control of Current Output). F-91 0 = Control by local 1 = Control by external voltage 2 = Control by external resistor - rising...
Page 91 Selects the external control range for external voltage or resistance control. F-97 0 = 5V [5k ], 1 = 10V [10k ] Set external output control on or off. F-98 0 = OFF, 1 = ON Sets the trigger input width in milliseconds. If the width is set to 0 then the input trigger is controlled by the input active level.
Page 92 Recalls the selected memory when a trigger is received. 1 = M1 F106 2 = M2 3 = M3 Trigger output pulse width. A setting of 0 will output the active level. F120 0-60ms. 0 = output active level Sets the active level of the output trigger if the trigger output pulse width (F120) = 0.
Page 93 The Normal Function settings, F-01-F-61, F-70-F-78, F-88-F-89 and F100-F122 can be easily configured with the Function key. Ensure the load is not connected. Ensure the output is off. Function settings F-90-98 can only be viewed. 1. Press the Function key. The Function function key will light up.
Page 94 Press the Voltage knob to save the Voltage configuration setting. ConF will be displayed when it is configuring. VOLTAGE CURRENT Press the Function key again to exit Function the configuration settings. The Function key light will turn off. The Power On Configuration settings can only be changed during power up to prevent the configuration settings being inadvertently changed.
Page 95 3. Rotate the Voltage knob to change the F setting. F-90-F-98 4. Use the Current knob to set the parameter for the chosen F setting. Press the Voltage knob to save the configuration setting. ConF will be displayed when it is configuring. Cycle the power to save and exit the configuration settings.
Page 96 The Analog Control chapter describes how to control the voltage or current output using an external voltage or resistance, monitor the voltage or current output as well as remotely turning off the output or shutting down the power supply. Analog Control Connector Overview ..........98 External Voltage Control of Voltage Output ......101 External Voltage Control of Current Output ......104 External Resistance Control of Voltage Output ......106...
Page 97 The T3PS power supply series have a number of analog control options. The Analog Control connectors are used to control output voltage and current using external voltage or resistance. The power supply output can also be controlled using external switches. Analog control connector overvi External resistance control of External control of the shutdown...
Page 98 The Analog Control Connector is a 25 pin connector that can be used with the ARC (analog remote control) kit for wiring connections. The connector is used for all analog remote control. The pins used determine what remote control mode is used.
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Page 101 EXT-V T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 102 EXT-V T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal Function Output 1.800.561.8187 information@itm.com www. .com...
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Page 104 EXT-V T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 105 EXT-V T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal Function Output 1.800.561.8187 information@itm.com www. .com...
Page 106 External resistance control of the voltage output is accomplished using the analog control connector on the rear panel. There are two external resistance control ranges, 0- configuration. See page 91 for details. The output voltage (0 to full scale) can be controlled with the external resistance rising or falling 5 Rising:...
Page 107 EXT-R T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 108 3. Press the Function key and confirm Function the new configuration settings (F- 90=2 or 3). 4. Press the Output key. The Output voltage can now be controlled with the External resistance. External resistance control of the current output is accomplished using the analog connector on the rear panel.
Page 109 EXT-R T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 110 1. Connect the external resistance according to the connection diagrams above. 2. Set the F-91 (CC Control) Page 94 configuration settings to 2 for external resistor rising or to 3 for external resistor falling. Be sure to cycle the power after the power on configuration has been set.
Page 111 Switch T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 112 Set F-94 (External output logic) in Page 94 the power on configuration settings to 0 (High = On) or 1 (Low = On) and set F-98 (External output control function) to 1(On). Be sure to cycle the power after setting the power on configuration settings.
Page 113 The output of the power supplies can be configured to shut down via an external switch. The voltage across pins 7 and 20 are internally resistor. The output is turned off when a low TTL level signal is applied. 1.800.561.8187 information@itm.com www.
Page 114 Switch T3PS Analog connector 2 core shielded wire or twisted Output pair Terminal Switch Relay Line Analog connector extention 1.800.561.8187 information@itm.com www. .com...
Page 115 The T3PS power supplies have remote monitoring support for current and voltage output. They also support monitoring of operation and alarm status. page 117 External Trigger In/Out The analog connector is used to monitor the current (IMON) or voltage (VMON) output. An output of 0-10V or 0-5V (depending on the configuration) represents the voltage or current output of 0-rated current/voltage output.
Page 116 T3PS V MON Analog connector 2 core shielded wire or twisted Output pair Terminal T3PS I MON Analog connector 2 core shielded wire or twisted Output pair Terminal 1.800.561.8187 information@itm.com www. .com...
Page 117 The analog control connector can also be used to monitor the status operation and alarm status of the instrument. The pins are isolated from the power supply internal circuitry by photo couplers. Status Com1 (Pin 1) and Status Com2 (Pin 5) are photo coupler emitter outputs, whilst pins 2-3, 14-17 are photo coupler collector outputs.
Page 118 Below are 4 example timing diagrams covering a number of scenarios. Note that pins 14-16 are all active low. The diagram below shows the timing diagram when the output is turned on when the T3PS is set to CV mode. CV status CC status Output status...
Page 119 The diagram below shows the timing diagram when the output is turned on when the T3PS is set to CC mode. The diagram below shows the output status lines when the output is turned off in CC mode. Pin 4 is used for the external trigger input and pin 17 is used as the trigger output.
Page 120 The trigger output can be configured to be active when the output is turned on/off, a setting is changed or when a memory setting has been recalled. The trigger output pulse width or level polarity can also be configured. See page 91 for details on the trigger input and trigger output configuration settings.
Page 121 This chapter describes basic configuration of IEEE488.2 based remote control. USB Remote Interface ..............122 Configuration..............122 Function Check..............123 UART Remote Interface ..............123 Configure UART ..............123 UART Function Check............126 Multiple Unit Connection ............126 Legacy Multi-Drop mode..........127 Multi-Drop mode .............129 Multiple units Function Check........132 Configure Ethernet Connection..........132 Sockets Server Configuration .........133 Socket Server Function Check ........134...
Page 122 Type A, host Rear panel Type B, slave 1.1/2.0 (full speed/high speed) CDC (communications device class) 1. Connect the USB cable to the rear panel USB B port. 2. Change the Rear panel-USB (F-22) Page 93 setting to 2 (Auto Detect Speed) or 1 (USB Full Speed).
Page 123 USB remote control (page 122). *idn? This should return the Manufacturer, Model number, Serial number, and Firmware version in the following format. Teledyne, T3PS40381P,TW123456,T0.01.12345678 Manufacturer: Teledyne Model number : T3PS40381P Serial number : TW123456 Firmware version : T0.01.12345678 The T3PS uses the IN &...
Page 124 The pin outs for the adapters are shown below. 1. Connect the RS232 serial cable or RS 485 / 232 RS485 series cable to the Remote IN port on the real panel. Connect the other end of the cable to the PC. 1.800.561.8187 information@itm.com www.
Page 125 2. Press the Function key to enter Page 93 the Normal configuration settings. Set the following UART settings: Interface: 0= Disable UART, F-70 = 1 or 2 1= RS232 or 2 = RS485 Set the baud rate: 0=1200, 1=2400, 2=4800, 3=9600, F-71 = 0-7 4=19200, 5=38400, 6=57600, 7=115200...
Page 126 (page 123). *idn? This should return the Manufacturer, Model number, Serial number, and Firmware version in the following format: Teledyne, T3PS40381P,TW123456,T0.01.12345678 Manufacturer: Teledyne Model number : T3PS40381P Serial number : TW123456 Firmware version : T0.01.12345678 The T3PS power supplies can have up to 31 units daisy-chained together using the 8 pin connectors (IN OUT ports) on the rear panel.
Page 127 There are two modes for controlling multiple units. The first mode only allows the user to enter legacy commands (Legacy Multi-Drop mode). All UART parameters have to be configured in this mode. The second mode allows the user to enter the SCPI commands developed for the instrument (Multi-Drop mode).
Page 128 6. Press the Function key to enter the Page 93 Normal configuration settings for the master unit. Set the following settings: Configure the master unit as you normally would for RS232 or F-70 = 1 or 2 RS485 remote control, see page 123.
Page 129 8. Multiple units can now be operated at the same time. Only legacy commands can be used in this mode. See the programming manual or see the function check below for usage details. 1. Check the F-89 (System version and build date) settings first on all units (see page 88).
Page 130 5. Connect all the remaining units between the OUT port and the IN port with the slave serial link cable until all the desired units have been daisy-chained together. Unit #N Unit #2 Unit #1 RS 485 / 232 RS 485 / 232 RS 485 / 232 To PC GPIB...
Page 131 Display on each slave units the configured address. This can F-77 = 3 show if identical addresses have been assigned individually to each slave units. 13. Set the Multi-Drop setting parameter (F-77) to Master. F-77 = 1 Set the Multi-Drop setting to master.
Page 132 Invoke a terminal application such as Realterm. To check the COM port No, see the Device Below shows examples using the Legacy Multi- Drop mode and the Multi-Drop mode. The Ethernet interface can be configured for a number of different applications.
Page 133 This configuration example will configure the T3PS socket server. The following configuration settings will manually assign the T3PS an IP address and enable the socket server. The socket server port number is fixed at 2268. 1. Connect an Ethernet cable from the network to the rear panel Ethernet port.
Page 134 To test the socket server functionality, National Instruments Measurement and Automation Explorer can be used. This program is available on the NI website, www.ni.com., via a search for the VISA Run- the following URL, http://www.ni.com/visa/ Operating System: Windows XP, 7, 8 1.
Page 135 1.800.561.8187 information@itm.com www. .com...
Page 136 T3PS_DC1 1.800.561.8187 information@itm.com www. .com...
Page 137 1.800.561.8187 information@itm.com www. .com...
Page 138 Teledyne,T3PS40381P, T0.02.20131205\n 1.800.561.8187 information@itm.com www. .com...
Page 139 When setting the OVP voltage, take into account the voltage drop from the load cables. As the OVP level is set from the output terminals and not the load terminals, the voltage at the load terminals may be slightly lower. Yes.
Page 140 The following default settings are the factory configuration settings for the power supply. For details on how to return to the factory default settings, see page 1.800.561.8187 information@itm.com www. .com...
Page 141 1.800.561.8187 information@itm.com www. .com...
Page 142 1.800.561.8187 information@itm.com www. .com...
Page 143 The following error messages or messages may appear on the T3PS screen during operation. 1.800.561.8187 information@itm.com www. .com...
Page 144 Use the following table to read the LED display messages. 1.800.561.8187 information@itm.com www. .com...
Page 145 The specifications apply when the T3PS is powered on for at least 30 minutes. Model T3PS062001P T3PS40381P T3PS60251P Model T3PS062001P T3PS40381P T3PS60251P Model T3PS062001P T3PS40381P T3PS60251P 1.800.561.8187 information@itm.com www. .com...
Page 146 Model T3PS062001P T3PS40381P T3PS60251P Model T3PS All models Model T3PS All models 1.800.561.8187 information@itm.com www. .com...
Page 147 Model T3PS062001P T3PS40381P T3PS60251P Model T3PS All models Model T3PS062001P T3PS40381P T3PS60251P Model T3PS All models 1.800.561.8187 information@itm.com www. .com...
Page 148 Model T3PS062001P T3PS40381P T3PS60251P Model T3PS All models Model T3PS All models Model T3PS All models Model T3PS All models 1.800.561.8187 information@itm.com www. .com...
Page 149 1.800.561.8187 information@itm.com www. .com...
Page 150 Units = mm V o lt a ge C u rren t DC P ower Sup ply 0 -4 0V /0 -3 8A VOL TA GE C UR RENT V S R LA N RM T ER R A LM R UN Loc k/Loca l PR OT...
Page 151 Teledyne LeCroy certifies compliance to the following standards as of the time of publication. Please see the EC Declaration of Conformity document shipped with your product for current certifications. The instrument meets intent of EC Directive 2014/30/EU for Electromagnetic Compatibility. Compliance was demonstrated to...
Page 152 EN 61000-4-4:2012 Electrical Fast Transient/Burst, 1 kV on power supply lines, 0.5 kV on I/O signal data and control lines EN 61000-4-5:2014+A1:2017 Power Line Surge, 1 kV AC Mains, L-N, L-PE, N-PE EN 61000-4-6:2014 RF Conducted Electromagnetic Field, 3 Vrms, 0.15 MHz - 80 MHz EN 61000-4-11:2004+A1:2017 Mains Dips and Interruptions, 0%/1 cycle, 70%/25 cycles, 0%/250 cycles...
Page 153 AS/NZS CISPR 11:2015 Radiated and Conducted Emissions, Group 1, Class A. The instrument meets intent of EC Directive 2014/35/EU for Product Safety. Compliance was demonstrated to the following specifications as listed in the Official Journal of the European Communities: EN 61010-1:2010 Safety requirements for electrical equipment for measurement, control, and laboratory use Part 1: General requirements EN 61010-2:030:2010 Safety requirements for electrical equipment...
Page 154 Unit: Pollution Degree 2, operating environment where normally only dry, non-conductive pollution occurs. Temporary conductivity caused by condensation should be expected. The instrument is marked with this symbol to indicate that it complies with the applicable European Union requirements of Directives 2012/19/EU and 2006/66/EC on Waste Electrical and Electronic Equipment (WEEE) and Batteries.
Page 155 limits for certain restricted substances in electrical and electronic products). The instrument is marked with an appropriate Environmental Friendly Use Period (EFUP) symbol. The packaging materials include the appropriate recycling labels. The below substance disclosure tables (in Chinese and English languages) provide the required compliance information.
Page 156 Toxic or Hazardous Substances and Elements Lead Mercury Cadmium Hexavalent Polybrominated Polybrominated Part Name (Pb) (Hg) (Cd) Chromium Biphenyls Diphenyl Ethers (Cr6+) (PBB) (PBDE) PCBAs Mechanical Hardware Sheet Metal Plastic Parts Cable Assemblies Display Power Supply Fans Batteries Power Cord Ext Power Supply (if present) Probes (if present)
Page 157 Accessories ......... 12 UART settings ......87 USB/GPIB settings ...... 85 Alarm Conventions........38 description........25 CV mode Analog connector operation ........47 pin assignment......98 Default settings Analog control reset..........39 output control ......111 Display diagram......16 overview ........96 remote monitoring......115 Display format......144 resistance control current Disposal instructions ....8 output........108...
Page 158 Optional accessories....12 UART function check ....126 USB configuration...... 122 Output terminal......36 USB function check....123 cover ..........37 Remote sense load cables........37 operation........56 OVP level........44 Remote sense connector.... 55 Package contents ....... 12 Remote sense cover ....55 Panel lock ........
Page 159 © 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc. All rights reserved. tions, prices, availability and delivery subject to change without notice. Product brand or brand names are trademarks or requested trademarks of their respective holders.

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