Comprehensive test and measurement service provider-Shenzhen Weike Electronic Technology Co.
TH6200 series dual-range programmable DC power supply covers five models (80W-216W), each power supply has dual-voltage and dual-current output ranges, realizing that a single machine can be used as two different single machines.
TH6200 series power supply are linear, program-controlled output design, so the series power supply has a small ripple, low noise, high precision, stability and excellent performance. The whole series adopts 4.3-inch TFT LED display, all settings and output parameters are displayed on the same screen, which is more intuitive to use.UI design of the instrument adopts menu-based operation, soft keys, knobs to control and enter the parameters, which is easy to use, and can be well adapted to the rapid operation of the production line, as well as the application needs of colleges, universities and laboratories.
TH6200 series also has a powerful editable ability. The instrument can save 10 test files, and each test file can be edited with 100 test steps, which can be retrieved by one key when needed, and supports cyclic output of test files.
TH6200 series is equipped with RS232, USB HOST and USB DEVICE interfaces as standard, and optional GPIB interface, supporting SCPI and MODBUS communication protocols, which can be easily purchased or edited by the host computer software to meet the needs of system integration. Small size, standard chassis size and front and rear panels can be output design features, so that the TH6200 series power supply can be easily integrated into standard cabinets.
Functional Features
A. Dual-range outputs
TH6200 series power supply has two voltage and current output ranges, customers can choose high voltage output or high current output according to actual demand.
B. Facilitating automated integration
TH6200 series power supplies can be output from both front and rear panels, have 1/2 standard chassis size, and are equipped with a full range of communication interfaces to support SCPI and MODBUS communication protocols, making them easy to integrate into automation systems.
C. Remote compensation functions
When the output current of the instrument is large and the resistance value of the conductor is large, the voltage on the conductor from the output terminal of the instrument to the test piece will be larger, resulting in the actual voltage at the ends of the test piece being smaller than the output voltage of the instrument. Using the remote compensation function can compensate for the voltage drop on the test line to ensure that the voltage at the ends of the DUT is the actual set output voltage.
D. Humanizing design
TH6200 series are equipped with 4.3-inch TFT LCD display, all setting parameters and output parameters are displayed in the same screen at the same time. The left side of the screen corresponds to the parameter setting area equipped with voltage, current and time quick setting buttons, which is more convenient and intuitive to use. Digital encoding knob, digital keyboard can quickly and accurately enter the setup parameters, avoiding the inefficiency and inaccuracy brought about by potentiometer adjustment, and the output cut-off switch can effectively protect the measured parts and the instrument itself.
E. Strong editorial capacity
The instrument can store 100 groups of state data in the callback list, and each group of data can be set with voltage value, current value, overbonding voltage and overbonding current, which can be directly called up in the callback list when needed (e.g. Figure E-1). The instrument is also designed with a quick call function for 10 trigger files (as in Figure E-2), and each trigger file contains 100 trigger steps (as in Figure E-3). Each trigger step can edit the output voltage, output current, and output time, and each test file can edit the number of times of cyclic output. When receiving the trigger signal, the power supply executes the output task according to the order of the test file, and displays the output status in the page (as shown in Figure E-4).
F. Data-logging functions
TH6200 can also record the output voltage, output current and time data, the data sampling rate of about 100ms or so, after the end of the collection in the form of excel table saved in a USB flash drive, easy to analyze the data later.
| model number | TH6201 | TH6202 | TH6203 | TH6212 | TH6213 | |||||||
| Rated output (0°C-40°C) | Channel/Range | Scope 1 | Scope 2 | Scope 1 | Scope 2 | Scope 1 | Scope 2 | Scope 1 | Scope 2 | Scope 1 | Scope 2 | |
| input voltage | 0-20V | 0-8V | 0-32V | 0-15V | 0-72V | 0-32V | 0-32V | 0-15V | 0-72V | 0-32V | ||
| amps | 0-5A | 0-10A | 0-3A | 0-6A | 0-1.5A | 0-3A | 0-6A | 0-12A | 0-3A | 0-6A | ||
| power (output) | 100W | 80W | 96W | 90W | 108W | 96W | 192W | 180W | 216W | 192W | ||
| Load Adjustment ± (% output + bias) | input voltage | ≤0.01% + 4mV | ≤0.01% + 3mV | ≤0.01% + 3mV | ≤0.01% + 6mV | ≤0.01% + 5mV | ||||||
| amps | ≤0.01% + 2mA | ≤0.01% + 5mA | ≤0.01% + 4mA | |||||||||
| Power Supply Adjustment ± (% output + bias) | input voltage | ≤0.01% + 4mV | ≤0.01% + 3mV | ≤0.01% + 3mV | ≤0.01% + 6mV | ≤0.01% + 5mV | ||||||
| amps | ≤0.01% + 2mA | ≤0.01% + 5mA | ≤0.01% + 4mA | |||||||||
| Programming Resolution | input voltage | 1mV | ||||||||||
| amps | 0.1mA | |||||||||||
| Readback resolution | input voltage | 1mV | ||||||||||
| amps | 0.1mA | |||||||||||
| Annual Accuracy (25°C ± 5°C) ± (% reading + bias) | program | input voltage | ≤0.04% + 8mV | |||||||||
| amps | ≤0.1% + 5mA | |||||||||||
| readback | input voltage | ≤0.04% + 8mV | ||||||||||
| amps | ≤0.1% + 5mA | |||||||||||
| Ripple and Noise (20Hz-20MHz) | differential mode voltage | ≤3mVp-p/1mVrms | ≤3.5mVp-p/1mVrms | ≤3mVp-p/1mVrms | ≤4mVp-p/1mVrms | |||||||
| Differential mode current | <9mArms | <7mArms | <6mArms | ≤0mArms | ≤8mArms | |||||||
| common mode current (electronics) | <1.5μArms | |||||||||||
| transient response | <50uS (time for the output to recover to within 75mV when the output current changes from full to half full, or from half full to full) | <50uS (time for the output to recover to within 120mV when the output current changes from full to half full, or from half full to full) | <50uS (time for the output to recover to within 75mV when the output current changes from full to half full, or from half full to full) | |||||||||
| Rise Time (10% - 90%) | <90ms | <120ms | <180ms | |||||||||
| Downtime (90% - 10%) | <150ms | <200ms | <250ms | <350ms |  <250ms |
|||||||
| Series-parallel setpoint accuracy | input voltage | ------ | ||||||||||
| amps | ------ | |||||||||||
| timekeeping device (sundial, water clock) | 0.1 to 999999.9 seconds | |||||||||||
| stockpile | 10 groups of trigger outputs, 100 steps per group; 100 groups of setting memory | |||||||||||
■ Rated output: Range 1: 0-72V/0-1.5A (108W)
Range 2: 0-32V/0-3A (96W)
■ Linear design, dual range output
■ High precision, high stability, low ripple, low noise
■ 1/2 2U ultra-compact, front and rear panel outputs with sampling terminals
■ Fresh and simple system settings, Chinese and English operation interface
■ 24-bit color 4.3" TFT LCD, resolution: 480x272
■ Powerful programming capability, 100 sets of setting state memory saving and recalling
■ 10 trigger files, 100 test sequences per file, programmed loop outputs
■ Timing output: Time (0.1-99999.9s)
■ Knob and numeric keypad settings for voltage, current, and output time
■ Backlit display of panel function keys
■ Remote measurement function to compensate for line voltage drop
■ Output control switch
■ Screen copy function
■ Overvoltage and overcurrent protection
■ Intelligent temperature-controlled fans
■ Support for standard SCPI and MODBUS communication protocols
■ Software monitoring via computer
■ Upgrading instrument firmware via USB flash drive
▪ Generic testing for R&D and design verification
▪ Routine testing and maintenance of production line benches
■ Automated equipment integration testing
▪ Solar photovoltaic simulation testing
▪ Simulation testing of new power vehicles
▪ Teaching laboratories
| standard equipment | |||||
| Accessory Name | model number | ||||
| Test Leads at Both Ends | TH26004C | ||||
| optional | |||||
| Accessory Name | model number | ||||
| High Current Test Cables | TH26035D | ||||
| High Current Test Cables | TH26035E | ||||
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