ITECH IT6500 Wide Range High Power DC Power Supply Instruction Manual

ITECH IT6500 Wide Range High Power DC Power Supply

APPLICATIONS

• Automotive Electronics
• Civil avionics
• Electric Vehicle Battery Test
• Solar Panel I-V Curve Simulation
• Battery Simulation
• LED

Overcome the toughest high-power test challenges
With ITECH’s latest technology, the IT6500 series offers a full-featured high- performance power test solution. With a fast response, these DC power supplies provide users with a new level of power supply performance. From 800W to 6kW, the maximum output voltage and current is up to 1000V and 240A respectively. With its auto-ranging capability, it also has a super wide range of voltage and current applications. Users can choose the power supply that fits their testing requirements perfectly.

Choose the right power supplies that fit your test requirements

IT6502D/IT6512/IT6512A/ IT6513/IT6513A
Good performance and compact size, designed for general-purpose testing in R&D and production.

IT6500C/D series
High performance with stable output, designed for the automobile, green energy, high-speed testing, high-power testing, etc.

800W

| IT6502D

80V/60A/800W

|
---|---|---

1200W

| IT6512/A

80V/60A/1200W

| IT6513/A

150V/30A/1200W

|
1800W| IT6512C/D

80V/120A/1800W

| IT6513C/D

200V/60A/1800W

| IT6514C/D

360V/30A/1800W

| IT6515C/D

500V/20A/1800W

| IT6516C/D

750V/15A/1800W

| IT6517C/D

1000V/10A/1800W

3kW

| IT6522C/D

80V/120A/3kW

| IT6523C/D

200V/60A/3kW

| IT6524C/D

360V/30A/3kW

| IT6525C/D

500V/20A/3kW

| IT6526C/D

750V/15A/3kW

| IT6527C/D

1000V/10A/3kW

6kW| IT6532C/D

80V/240A/6kW

| IT6533C/D

200V/120A/6kW

| IT6534C/D

360V/60A/6kW

| IT6535C/D

500V/40A/6kW

| IT6536C/D

750V/30A/6kW

| IT6537C/D

1000V/20A/6kW

Fast response

Independent settable slew rate in different modes
IT6500C series can be used as a power supply and an electronic load. As a power supply, CV, CC, and CP modes are available. As an electronic load, CC and CP modes are available. IT6500C supports independent adjustable rise/fall time setting in different modes.
For every single model of the IT6500C/D series, no matter it is a single unit or multiple units paralleled together, the rise and fall time of each power supply in the IT6500C/D series are the same. Take IT6522C as an example:

• Within 30V voltage range, with 0-90% load, up and down speed <3ms

• Falling time of no load with voltage at full scale:

  • Without a power dissipater unit, falling time <30ms
  • With power dissipater unit, falling time <5ms

• Dynamic response time <3ms

• DC ratings of single unit IT6522C: 80V/120A/3000W

• Voltage ratings: 10V

• Current ratings: 120A

• Load Current: 0A

• DC ratings of single unit IT6522C: 80V/120A/3000W

• Voltage ratings: 10V

• Current ratings: 120A

• Load Current: 100A

No matter whether it is in the power supply mode (CV, CC, CP) or in the electronic load mode (CC, CP), the IT6500 series has adjustable rise and fall time, and the settable range is 1ms-24h.

Fast curve changing without overshoot CC & CV Priority Function

To conquer the demanding testing requirements existing for a long time in various applications, ITECH developed an innovative industry-leading CV & CC priority concept. The IT6500 is available for high-speed test applications without overshooting. Users can choose the desired output mode. Voltage high- speed mode or current no overshoot mode by choosing the loop response speed and loop operation mode. It is suitable for high-power integrated circuit tests, solar array simulations, and the transient simulation/characteristic of automotive electronics.

Fast voltage built with turn-on over range inrush current (CV-High, CC-Low, CV takes precedence)

Maintain excellent performance after paralleling

Built-in paralleling of multiple power supplies with even current distribution
IT6500C supports multiple power supplies paralleling together in master-slave mode. Even further it can ensure that each power supply equally shares the load current and they all remain in the desired mode. In the traditional sense, when paralleling power supplies together, different power supplies will operate in different operation modes.

For instance, when two sets of power supplies are paralleled together, one will offer a majority of current in CC mode, and the other will offer only a small part of the current in CV mode, which will degrade certain power supplies’ performance specifications. The even current distribution ability of the IT6500 ensures each power supply equally shares the load current without degrading the performance specifications. When paralleling multiple IT6500 the combined system has all the same functions as a standalone unit. That is a great way to add power flexibility to your test system. What is particularly unusual is that after the expansion of power, IT6500C can still maintain the excellent dynamic characteristics of the single unit to meet the I-V characteristic curve testing demanding a variety of high-power high-speed applications.

Low voltage & high current test

Standalone set IT6522C

• 80V,120A, 3000W
• Voltage ratings: 10V
• Current ratings: 120A
• Load current: 100A

8 sets of IT6522C paralleling together

• Voltage ratings: 10V
• Current ratings: 960A
• Load current: 800A

High voltage & low current test

Standalone set unit IT6522C

• 80V, 120A, 3000W
• Voltage ratings: 80V
• Current ratings: 120A
• Load current: 30A

8 sets of IT6522C paralleling together

• Voltage ratings: 80V
• Current ratings: 960A
• Load current: 300A

Dynamic response test

Standalone set IT6522C
80V, 120A, 3000W

• Voltage ratings: 10V
• Current ratings: 120A
• Load current:
  • Level A=10A
  • Level B=100A
  • F=10 Hz

8 sets of IT6522C paralleling together

• Voltage ratings: 10V
• Current ratings: 960A
• Load current:
  • Level A=100A
  • Level B=800A
  • F=10Hz

Figure: Voltage-Yellow, Current-Green

From the tests, we conclude:

1. Voltage rise time: 8 units of IT6522C paralleling together, the voltage rise time is faster than single unit operation.
2. Fall time: parallel units remain the same as a single unit.
3. Dynamic response waveforms: parallel units remain the same as a single unit.

Simple programming on the front panel (List)

Similar to other modern ITECH products, the IT6500 series provides a user- friendly front panel for quick programming without the need for external software.
In list mode, the IT6500 series can store, recall and run the preset customized program sequences via front-panel programming. Users can edit the voltage/current value & the time of each step in advance and provide the power supply with a trigger signal. Then the preset sequences/waveform will be executed automatically according to the defined LIST. That’s especially suitable for the applications such as DC / DC converters, inverters voltage drop tests, engine start-up simulations, battery charging / discharging tests, product life cycle tests, aircraft tests, etc.

Waveforms programmed with IT6500 series by engineers

Functions for special applications

Programmable output impendence
In the battery charging and discharging test, the changes in internal resistance should be taken into account. For enhancing test precision, the IT6500C series power supply provides a built-in internal resistance setting function that can simulate battery operation status in real-case.

Multiple actual working status simulations of batteries

Solar panel I-V curve simulation function
IT6500C series high-power DC power supply is equipped with SAS1000 solar array simulation software, which can accurately simulate the solar array I-V curve. With built-in EN50530 / Sandia / NB/T32004 / CGC/GF004 / CGC/GF035 SAS module. Users can set the parameters to simulate I-V curve characteristic output and generate reports. These benefit much in a test of the static & dynamic maximum power tracking performance of photovoltaic inverters.

SAS1000 solar array simulation software is available for choice

Built-in standard automotive power network voltage curves
The automobile electronics devices must tolerate the dropouts or surges from power turn-on or turn-off transient. For these tests, it is necessary to simulate the worst-case power transient conditions. IT6500C series power supply provides built-in DIN40839,  ISO-16750-2, SAEJ1113-11, LV124 and ISO21848 testing curves. Users can select any built-in curve to do the DUT performance test directly according to their demand. 12V, 24V, and 48V are available for choice.

Multiple built-in interfaces

In conventional high-power test instruments, extra interfaces add cost. In the IT6500 series, all the implemented interfaces are built-in standards. Simplifying the configuration process and adding flexibility to change the interface used without adding additional cost.

Cost saving| IT6500C| IT6500D| IT6512 IT6513| IT6502D IT6512A IT6513A
---|---|---|---|---
Analog control interfaces|

√

|

√

|

√

|

√

USB| √| √| √| √
RS232| √| √| √| √
RS485| –| –| √| √
LAN| √| √| –| –
CAN| √| √| –| –

Full protections

Integrating protection measures into test instruments is critical and high cost, especially in high-power tests. To provide full protection for DUTs, the IT6500 series integrate multiple fast protection measures.

These protection capabilities include:

• CC & CV Priority Function to avoid unwanted overshoot
• Power Supply mode: OVP, OCP, OPP
• Electronic Load mode: OCP, OPP, OTP (IT6500C)
• Anti-reverse protection (optional)
• Turn-off protection
• Under voltage protection (UVP)

Specification Parameters

Parameter| IT6502D| IT6512| IT6512A| IT6513| IT6513A
---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~80V

0~60A

0~800W

| 0~80V

0~60A

0~1200W

| 0~80V

0~60A

0~1200W

| 0~150V

0~30A

0~1200W

| 0~150V

0~30A

0~1200W

Load Regulation         Voltage| <0.01%+8mV

≤0.1%+10mA

| <0.01%+8mV

≤0.1%+10mA

| <0.01%+8mV

≤0.1%+10mA

| <0.05%+30mV

≤0.1%+30mA

| <0.05%+30mV

≤0.1%+30mA

±(%of Output+Offset)| Current
Line Regulation

±(%of Output+Offset)

| Voltage

Current

| <0.02%+2mV

<0.02%+2mA

| <0.02%+2mV

<0.02%+2mA

| <0.02%+2mV

<0.02%+2mA

| <0.02%+20mV

<0.02%+10mA

| <0.02%+20mV

<0.02%+10mA

Setup Resolution| Voltage

Current

| 1mV

1mA

| 1mV

1mA

| 1mV

1mA

| 3mV

1mA

| 3mV

1mA

Readback Resolution

| Voltage

Current

| 1mV

1mA

| 1mV

1mA

| 1mV

1mA

| 3mV

1mA

| 3mV

1mA

Setup Accuracy *1

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.02%+30mV

≤0.1%+0.1%FS

| ≤0.02%+30mV

≤0.1%+0.1%FS

| ≤0.02%+30mV

≤0.1%+0.1%FS

| ≤0.05%+30mV

≤0.2%+0.1%FS

| ≤0.05%+30mV

≤0.2%+0.1%FS

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| 0.02%+30mV

≤0.1%+0.1%FS

| 0.02%+30mV

≤0.1%+0.1%FS

| ≤0.02%+30mV

≤0.1%+0.1%FS

| <0.05%+30mV

≤0.2%+0.1%FS

| 0.05%+30mV

≤0.2%+0.1%FS

Ripple

(20Hz-20MHz)

| Voltage

Current

| ≤30mVp-p

≤20mArms

| ≤30mVp-p

10mArms

| ≤30mVp-p

≤20mArms

| ≤60mVp-p

≤40mArms

| ≤60mVp-p

40mArms

Setting Temperature Coefficient

±(%of Output+Offset)

| Voltage

Current

| ≤0.02%+30mV

≤0.05%+10mA

| 0.02%+30mV

≤0.05%+10mA

| ≤0.02%+30mV

≤0.05%+10mA

| <0.02%+30mV

≤0.05%+10mA

| 0.02%+30mV

≤0.05%+10mA

Readback Temperature Coefficient

±(%of Output+Offset)

| Voltage

Current

| ≤0.02%+30mV

≤0.05%+5mA

| 0.02%+30mV

≤0.05%+5mA

| ≤0.02%+30mV

≤0.05%+5mA

| <0.02%+30mV

≤0.05%+5mA

| 0.02%+30mV

≤0.05%+5mA

Dimension (mm)| 415mmW×44mmH×500mmD
Parameter| IT6512C| IT6512D| IT6522C| IT6522D| IT6532C| IT6532D
---|---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~80V

0~120A

0~1800W

| 0~80V

0~120A

0~1800W

| 0~80V

0~120A

0~3000W

| 0~80V

0~120A

0~3000W

| 0~80V

0~240A

0~6kW

| 0~80V

0~240A

0~6kW

Programmable output resistance| 0~3.556Ω| –| 0~2.133Ω| –| 0~1.067Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+30mV

≤0.05%+30mA

| ≤0.01%+30mV

≤0.05%+60mA

Line Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+10mV

≤0.01%+15mA

| ≤0.01%+10mV

≤0.01%+30mA

Setup Resolution| Voltage Current| 10mV

10mA

| 100mV

10mA

Readback Resolution| Voltage Current| 10mV

10mA

| 100mV

10mA

Setup Accuracy *1

(Within 12 months,25 °C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+30mV

≤0.2%+120mA

| ≤0.05%+30mV

≤0.2%+240mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+30mV

≤0.2%+120mA

| ≤0.05%+30mV

≤0.2%+240mA

Ripple

(20Hz-20MHz)

| Voltage Current| ≤80mVp-p

≤0.05%+60mArms

| ≤80mVp-p

≤0.05%+120mArms

Rise time (no load) 3| Voltage| ≤5ms| ≤30ms| ≤5ms| ≤30ms| ≤5ms| ≤30ms
Fall time (full load) 3| Voltage| ≤10ms| ≤20ms| ≤10ms| ≤20ms| ≤10ms| ≤20ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD
Parameter| IT6513C| IT6513D| IT6523C| IT6523D| IT6533C| IT6533D
---|---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~200V

0~60A

0~1800W

| 0~200V

0~60A

0~1800W

| 0~200V

0~60A

0~3000W

| 0~200V

0~60A

0~3000W

| 0~200V

0~120A

0~6kW

| 0~200V

0~120A

0~6kW

Programmable output resistance| 0~22.222Ω| –| 0~13Ω| –| 0~6.666Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+50mV

≤0.05%+20mA

| ≤0.01%+50mV

≤0.05%+40mA

Line Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+20mV

≤0.01%+10mA

| ≤0.01%+20mV

≤0.01%+20mA

Setup Resolution| Voltage Current| 10mV

10mA

| 10mV

10mA

Readback Resolution| Voltage Current| 10mV

10mA

| 10mV

10mA

Setup Accuracy *1

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+100mV

≤0.2%+60mA

| ≤0.05%+100mV

≤0.2%+120mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+100mV

≤0.2%+60mA

| ≤0.05%+100mV

≤0.2%+120mA

Ripple

(20Hz-20MHz)

| Voltage Current| ≤200mVp-p

≤50mArms

| ≤200mVp-p

≤100mArms

Rise time (no load) 3| Voltage| ≤15ms| ≤100ms| ≤15ms| ≤100ms| ≤15ms| ≤100ms
Fall time (full load) 3| Voltage| ≤15ms| ≤20ms| ≤15ms| ≤20ms| ≤15ms| ≤20ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD
Parameter| IT6514C| IT6514D| IT6524C| IT6524D| IT6534C| IT6534D
---|---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~360V

0~30A

0~1800W

| 0~360V

0~30A

0~1800W

| 0~360V

0~30A

0~3000W

| 0~360V

0~30A

0~3000W

| 0~360V

0~60A

0~6kW

| 0~360V

0~60A

0~6kW

Programmable output resistance| 0~72Ω| –| 0~43.2Ω| –| 0~21.6Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+135mV

≤0.05%+15mA

| ≤0.01%+135mV

≤0.05%+30mA

Line Regulation

±(%of Output+Offset)

| Voltage Current| ≤0.01%+40mV

≤0.01%+5mA

| ≤0.01%+40mV

≤0.01%+10mA

Setup Resolution| Voltage Current| 10mV

10mA

| 10mV

10mA

Readback Resolution| Voltage Current| 10mV

10mA

| 10mV

10mA

Setup Accuracy *1

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+135mV

≤0.2%+30mA

| ≤0.05%+135mV

≤0.2%+60mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage Current| ≤0.05%+135mV

≤0.2%+30mA

| ≤0.05%+135mV

≤0.2%+60mA

Ripple

(20Hz-20MHz)

| Voltage Current| ≤360mVp-p

≤0.05%+30mArms

| ≤360mVp-p

≤0.05%+60mArms

Rise time (no load) 3| Voltage| ≤50ms| ≤250ms| ≤50ms| ≤250ms| ≤50ms| ≤250ms
Fall time (full load) 3| Voltage| ≤55ms| ≤70ms| ≤55ms| ≤70ms| ≤55ms| ≤70ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD

1. Setup Accuracy refers to users’ use of panel keys or communication commands to achieve setup accuracy; when using external analog programming, the programming accuracy is 1%
2. Readback Accuracy refers to users using panel display or communication commands to achieve readback accuracy; when using external analog monitoring, the monitor accuracy is 1%
3. Rise and Fall Time refers to the settling time of setup value from one value to another using the internal standard power dissipator in the ON state.

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~500V

0~20A

0~1800W

| 0~500V

0~20A

0~1800W

| 0~500V

0~20A

0~3000W

| 0~500V

0~20A

0~3000W

| 0~500V

0~40A

0~6kW

| 0~500V

0~40A

0~6kW

Programmable output resistance| 0~138.88Ω| –| 0~83.33Ω| –| 0~41.66Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+100mV

≤0.05%+20mA

| ≤0.01%+100mV

≤0.05%+40mA

Line Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+50mV

≤0.01%+5mA

| ≤0.01%+50mV

≤0.01%+10mA

Setup Resolution| Voltage

Current

| 100mV

10mA

| 100mV

10mA

Readback Resolution| Voltage

Current

| 100mV

10mA

| 100mV

10mA

Setup Accuracy *1

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+200mV

≤0.2%+20mA

| ≤0.05%+200mV

≤0.2%+40mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+200mV

≤0.2%+20mA

| ≤0.05%+200mV

≤0.2%+40mA

Ripple

(20Hz-20MHz)

| Voltage

Current

| ≤500mVp-p

≤40mArms

| ≤500mVp-p

≤80mArms

Rise time (no load) 3| Voltage| ≤40ms| ≤200ms| ≤40ms| ≤200ms| ≤40ms| ≤200ms
Fall time (full load) 3| Voltage| ≤25ms| ≤30ms| ≤25ms| ≤30ms| ≤25ms| ≤30ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD
Parameter| IT6516C| IT6516D| IT6526C| IT6526D| IT6536C| IT6536D
---|---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~750V

0~15A

0~1800W

| 0~750V

0~15A

0~1800W

| 0~750V

0~15A

0~3000W

| 0~750V

0~15A

0~3000W

| 0~750V

0~30A

0~6kW

| 0~750V

0~30A

0~6kW

Programmable output resistance| 0~312.5Ω| –| 0~188Ω| –| 0~93.75Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+200mV

≤0.05%+15mA

| ≤0.01%+200mV

≤0.05%+30mA

Line Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+75mV

≤0.1%+5mA

| ≤0.01%+75mV

≤0.1%+10mA

Setup Resolution| Voltage

Current

| 100mV

10mA

| 100mV

10mA

Readback Resolution| Voltage

Current

| 100mV

10mA

| 100mV

10mA

Setup Accuracy *1

(Within 12 months,25 °C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+300mV

≤0.2%+15mA

| ≤0.05%+300mV

≤0.2%+30mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+300mV

≤0.2%+15mA

| ≤0.05%+300mV

≤0.2%+30mA

Ripple

(20Hz-20MHz)

| Voltage

Current

| ≤750mVp-p

≤30mArms

| ≤750mVp-p

≤60mArms

Rise time (no load) 3| Voltage| ≤50ms| ≤250ms| ≤50ms| ≤250ms| ≤50ms| ≤250ms
Fall time (full load) 3| Voltage| ≤20ms| ≤20ms| ≤20ms| ≤20ms| ≤20ms| ≤20ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD
Parameter| IT6517C| IT6517D| IT6527C| IT6527D| IT6537C| IT6537D
---|---|---|---|---|---|---

Output Rating

(0°C~40°C)

| Voltage Current Power| 0~1000V

0~10A

0~1800W

| 0~1000V

0~10A

0~1800W

| 0~1000V

0~10A

0~3000W

| 0~1000V

0~10A

0~3000W

| 0~1000V

0~20A

0~6kW

| 0~1000V

0~20A

0~6kW

Programmable output resistance| 0~555.555Ω| –| 0~333.333Ω| –| 0~166.666Ω| –
Load Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+375mV

≤0.05%+5mA

| ≤0.01%+375mV

≤0.05%+10mA

Line Regulation

±(%of Output+Offset)

| Voltage

Current

| ≤0.01%+100mV

≤0.01%+5mA

| ≤0.01%+100mV

≤0.01%+10mA

Setup Resolution| Voltage

Current

| 100mV

1mA

| 100mV

1mA

Readback Resolution| Voltage

Current

| 100mV

1mA

| 100mV

1mA

Setup Accuracy *1

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+375mV

≤0.2%+10mA

| ≤0.05%+375mV

≤0.2%+20mA

Readback Accuracy *2

(Within 12 months,25°C±5°C)

±(%of Output+Offset)

| Voltage

Current

| ≤0.05%+375mV

≤0.2%+10mA

| ≤0.05%+375mV

≤0.2%+20mA

Ripple

(20Hz-20MHz)

| Voltage

Current

| ≤1Vp-p

≤0.05%+10mArms

| ≤1Vp-p

≤0.05%+20mArms

Rise time (no load) 3| Voltage| ≤70ms| ≤300ms| ≤70ms| ≤300ms| ≤70ms| ≤300ms
Fall time (full load) 3| Voltage| ≤30ms| ≤30ms| ≤30ms| ≤30ms| ≤30ms| ≤30ms
Number of Power Dissipators in Parallel| ≤3| –| ≤3| –| ≤6| –
Dimension (mm)| 483mmW×105.4mmH×640.8mmD| 483mmW×194mmH×640.8mmD

1. Setup Accuracy refers to users’ use of panel keys or communication commands to achieve setup accuracy; when using external analog programming, the programming accuracy is 1%
2. Readback Accuracy refers to users using panel display or communication commands to achieve readback accuracy; when using external analog monitoring, the monitor accuracy is 1%
3. Rise and Fall Time refers to the settling time of setup value from one value to another using the internal standard power dissipator in the ON state

Models

IT6512/IT6513/IT6512A/IT6513A/IT6502D Model

Machine size

• Width: 414.5mm
• Height: 44.5mm
• Depth: 500mm

Detailed Dimension

This information is subject to change without notice. For more information, please contact ITECH.

Taipei
Add: No.918, Zhongzheng Rd., Zhonghe Dist., New Taipei City
235, Taiwan
Web: www.itechate.com
TEL: +886-3-6684333
E-mail: info@itechate.com.

Factory I
Add: No.108, XiShanqiao Nanlu, Nanjing city, 210039, China
TEL: +86-25-52415098
Web: www.itechate.com

Factory II
Add: No.150, Yaonanlu, Meishan Cun, Nanjing city, 210039, China
TEL: +86-25-52415099
Web: www.itechate.com

References

• Welcome to ITECH

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