ISO 16750

Fully Compliant Test Systems for ISO 16750-2:2023 Standards

The ISO 16750 is one of the most important standards in the automotive industry. With the 100-TS series, BOLAB presents a globally unique solution for simulating electrical systems according to ISO 16750 and numerous other standards. All the curves relevant to this standard are included in the curve library of the test systems. The linear and highly precise 4-quadrant power amplifiers provide fast voltage and current signals - both positive and negative (bipolar). They can also be used as a sink to absorb power. This series is characterized by an extremely high bandwidth, necessary for fast signals, and the modular design that allows systems up to 54 kW.
4-Quadrant-Amplifier for ISO16750

BOLAB Solution for ISO 16750-2-2023

Code Test items Feasability BOLAB 4 Quadrant Amplifier System 100-TS Series BOLAB or third party Power Supply BOLAB Electric Switch FIS 100-xx BOLAB Electric Switch Matrix FIS SM 96-2 BOLAB Load Dump Generator 10/63-210 1C Additional requirements / comments
4.3 Overvoltage
4.3.1 Long term overvoltage
4.3.1.1 Test at a temperature of (Tmax – 20) °C for alternator failure
4.3.1.2 Test at room temperature and Tmin for jump start
4.3.2 Transient overvoltage
4.4 Superimposed alternating voltage
4.5 Slow decrease and increase of supply voltage
4.6 Discontinuities in supply voltage
4.6.1 Drops or interrupts in supply voltage
4.6.1.1 Momentary drop in supply voltage
4.6.1.2 Micro interruption in supply voltage
4.6.2 Reset behaviour at voltage drop
4.6.3 Starting profile
4.6.4 Load dump
4.7 Reversed voltage
4.8 Ground reference and supply offset
4.9 Open circuit tests
4.9.1 Single line interruption
4.9.2 Multiple line interruption Manual execution. No instrument is necessary.
4.10 Short circuit/overload protection
4.11 Withstand voltage Electronic High-Voltage Tester G1-1G-T (standalone hardware unit)
4.12 Insulation resistance Insulation Resistance Tester 90-4K (standalone hardware unit)

BOLAB Feasibility

Explore BOLAB's WaveMaster Software in Action

4.3.1.1 Long Term Overvoltage


4.3.1.2 Long term overvoltage

Test at room temperature and Tmin for jump start

4.3.2 Transient overvoltage


4.6.1.1 Momentary drop in supply voltage


4.6.2 Reset behaviour at voltage drop


4.6.3 Starting profile


Explore Your Options:

Buy, Rent, or Lease-to-Own

Our comprehensive solutions offer you maximum flexibility when acquiring BOLAB test systems. You have the option to purchase, rent, or arrange a lease-to-own agreement - depending on your individual needs and financial capabilities.


Opting for purchase grants you full control over your test systems, allowing for long-term use without concerns about rental payments or contract durations. This is an ideal choice for companies looking to make long-term investments.


Renting provides you with the flexibility to use the equipment for a specific period without committing long-term. This can be particularly useful for temporary projects. With our rental option, you can access the latest technology without making a significant upfront investment.


For those looking to invest long-term but unable to pay the full purchase price upfront, lease-to-own offers the perfect solution. You have the opportunity to initially rent the equipment and then purchase it at a pre-agreed price after the rental period expires. This allows you to test the equipment and ensure it meets your requirements before committing to the purchase.


Regardless of the option you choose, we are here to provide you with expertise and support to ensure you make the right decision for your business.

Signal Quality

Rising and Falling Time
Oscilloscope

Modular Design

  • Modular hardware architecture
  • Starting with one single unit of e.g. 1 kW
  • Extension up to 54 kW in parallel
  • Building up 3-phase systems with up to 6 kW per phase
  • Serial connection for increasing voltage
  • In case of a defective module, only this modul needs to be repaired
  • Each module has its own indication for functional capability
Modular System Design
Modular System Design

modularly extendable up to 54 kW (each module: 1.000 W, -30 V ... +70 V, 38 A)

BOLAB's systems are distinguished by their modularity, allowing you to start with a "small" 1 kW (1,000 V, 15 A) system and expand it module by module based on your application requirements and budget.

Never before has it been so simple to engage in high voltage testing for electric vehicles and gradually build up to a highly powerful solution. BOLAB empowers you to scale your testing capabilities at your own pace, ensuring a seamless and efficient testing process.

WaveMaster Software

Waveform genertaion and 4-quadrant amplifier control

The powerful and easy to use WaveMaster software is unique in world market. Without any knowledge in

software development, construction of ordinary and complex waveforms is dead easy.

A graphical waveform editor allows to generate individual curves in a flash. Also with a tabular input all kinds

of waveforms can be produced immediately.

The simplicity how fast to import data out of oscilloscopes is amazing. Read in ASCII data files is possible in the same way.

Get more Details
WaveMaster

Easy Programming

SPECIAL FEATURES

  • Ready to use for LabViewTM, Vector CANoe/ CAPL, C#, C++, ANSI C, Python, etc.
  • Creating waveforms out of source code
  • Predefined commands for sine waves, exponential functions, ramps, etc.
  • Integration into HIL simulation systems
  • Complete interface handling and configuration
  • Starting and closing software out of application

PHYTON EXAMPLE

This programming example in Python opens an existing data file, loads data into amplifiers memory, switches the output on and runs the application in a loop of five times.

import ArbNetPY27
import time
arbnet = ArbNetPY27.CreateObject()
serverIPAddress = „10.99.92.78“
serverPortNumber = 700
arbnet.Connect(serverIPAddress,serverPortNumber)
fileName = „F:\\Waveform1MV.and“
openfileRet = arbnet.OpenFile(fileName)
sys=arbnet.GetArbitrarySystem()
source = „NI DAQ USB-6259“
amplifier = „105-75E-TS“
setSysRet = sys.Set(1,source,amplifier,0,0,0)
time.sleep(5)
sys.Load()
sys.Execute()
sys.Start(5)
run = sys.IsRun()
while run == 1:
    time.sleep(0.5)
    run = sys.IsRun()
sys.Standby()
openfileRet.Close()
arbnet.disconnect()

Technical Data

Models 70 V Voltage max. Voltage min. Current Output power Dimensions
105-70R-TS + 70 V - 30 V 15 A 500 W 3 U
110-70R-TS + 70 V - 30 V 40 A 1000 W 4 U
120-70R-TS + 70 V - 30 V 76 A 2000 W 14 U
130-70R-TS + 70 V - 30 V 114 A 3000 W 18 U
140-70R-TS + 70 V - 30 V 152 A 4000 W 22 U
150-70R-TS + 70 V - 30 V 190 A 5000 W 26 U
160-70R-TS + 70 V - 30 V 228 A 6000 W 30 U
180-70R-TS + 70 V - 30 V 304 A 8000 W 2 x 22 U
200-70R-TS + 70 V - 30 V 380 A 10000 W 2 x 26 U
220-70R-TS + 70 V - 30 V 456 A 12000 W 2 x 30 U
250-70R-TS + 70 V - 30 V 570 A 15000 W 3 x 26 U
280-70R-TS + 70 V - 30 V 684 A 18000 W 3 x 30 U
Ranges / Current 105-70R-TS 110-70R-TS 120-70R-TS 130-70R-TS 140-70R-TS 150-70R-TS
Low voltage range -30 V...+16 V 19 A 38 A 76 A 114 A 152 A 190 A
Middle voltage range -30 V...+27 V 19 A 38 A 76 A 114 A 152 A 190 A
High voltage range -30 V...+70 V 7 A 14 A 29 A 43 A 57 A 71 A
Current peak 2 ms 40 A 100 A 190 A 285 A 380 A 475 A
Gain (voltage) 1 V / 10 V 1 V / 10 V 1 V / 100 V 1 V / 100 V 1 V / 100 V 1 V / 100 V
Gain (current) 1 V / 10 A 1 V / 10 A 1 V / 100 A 1 V / 100 A 1 V / 100 A 1 V / 100 A
DC-Offset < 1 mV < 1 mV < 1 mV < 1 mV < 1 mV < 1 mV
Monitor output (voltage) 1 V / 10 V 1 V / 10 V 1 V / 100 V 1 V / 100 V 1 V / 100 V 1 V / 100 V
Monitor output (current) 1 V / 10 A 1 V / 10 A 1 V / 100 A 1 V / 100 A 1 V / 100 A 1 V / 100 A
Residual Noise < 7 mV < 7 mV < 7 mV < 7 mV < 7 mV < 7 mV
Source power 500 W 1.000 W 2.000 W 3.000 W 4.000 W 5.000 W
Sink power 240 W 470 W 940 W 1.400 W 1.800 W 2.400 W
Slew rate 100 V / μs 100 V / μs 50 V / μs 50 V / μs 50 V / μs 50 V / μs
CV-mode frequency bandwith small signal (-3 dB) DC – 200 kHz DC – 1 MHz DC – 200 kHz DC – 500 kHz DC – 200 kHz DC – 500 kHz DC – 200 kHz DC – 500 kHz DC – 200 kHz DC – 500 kHz DC – 200 kHz DC – 500 kHz
CC-mode (option) Depending on RC network Depending on RC network Depending on RC network Depending on RC network Depending on RC network Depending on RC network
Input impedance unbalanced 100 kΩ (1 kΩ) 100 kΩ (1 kΩ) 100 kΩ (1 kΩ) 100 kΩ (1 kΩ) 100 kΩ (1 kΩ) 100 kΩ (1 kΩ)
Instrument size 19“, 3 HE 19“,4 HE 19“, 39 HE 19“, 39 HE 19“, 39 HE 19“, 39 HE
Dimensions WxHxD (cm) 44,5 x 13,3 x 60,3 44,5 x 17,5 x 60,3 68 x 185 x 56 68 x 185 x 56 68 x 185 x 56 68 x 185 x 56
Delivery Instrument Instrument 19“-Rack 19“-Rack 19“-Rack 19“-Rack
Weight 20 kg 40 kg 150 kg 190 kg 230 kg 270 kg
Power Supply 230 VAC (±10 %, 50 Hz ... 60 Hz) 230 VAC (±10 %, 50 Hz ... 60 Hz) 3 x 230 VAC (±10 %, 50 Hz ... 60 Hz) 3 x 230 VAC (±10 %, 50 Hz ... 60 Hz) 3 x 230 VAC (±10 %, 50 Hz ... 60 Hz) 3 x 230 VAC (±10 %, 50 Hz ... 60 Hz)
Protection 10 A 10 A 3 x 16 A 3 x 16 A 3 x 16 A 3 x 16 A
Protective functions Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation Over Voltage Protection (OVP) Over Current Protection (OCP) Over Temperature Protection (OTP) Protection against excessive power dissipation
Operating temperature 10° C - 55° C 10° C - 55° C 10° C - 55° C 10° C - 55° C 10° C - 55° C 10° C - 55° C

 Our services for you

Modular Test System

Years of experience

In the development and manufacturing of testing systems, particularly in the field of 4-quadrant amplifiers, we have extensive experience and have earned an outstanding reputation. At BOLAB, our pursuit of excellence is the foundation of our success.
Low Voltage Test System

High-quality products

Our 4-quadrant voltage and current amplifiers are known for their high quality and reliability.
4-Quadrant-Amplifier

Wide range of applications

Our products find applications in various industries, including the automotive and aerospace sectors.

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