Intelligent Bipolar Power SupplyPBZSeries

Intelligent power supply providing arbitrary waveform generation and accurate power simulation!

Intelligent Bipolar Power Supply PBZ Series

Features

7 new features for optimum test simulation!

The PBZ is a series of bipolar DC programmable power supplies that can smoothly pass through zero to provide ± voltage and ± current without changing the output terminals. The PBZ is capable of 4-quadrant operation, meaning that it is capable of both sourcing and sinking power, ideal for driving both inductive and capacitive loads. This power supply comes equipped with a built-in function generator, allowing for easy waveform and sequence generation.

The output current of the PBZ can be expanded among multiple units by using the synchronization feature. The switching + linear design of the PBZ has allowed for a 40% reduction in weight (approx. 22 kg) while achieving extremely high-speed operation (CV mode: 100 kHz) and low ripple noise.

PBZ Four quadrant (bipolar) operation digram

Waveform Generation

Built-in function generator for customizable waveform generation!

In addition to basic sine, square and triangular waveforms, the PBZ allows the operator to customize up to 16 user-defined waveforms with the internal function generator. Amplitude, frequency, start phase, frequency sweep and square wave duty can be programmed as needed. 16 user-defined waveforms can be freely edited and registered to the PBZ internal memory. The sequence feature (see P6) allows for each step in an individual waveform to be customized in detail for a maximum of 1024 steps among 16 programs. *Waveform editing requires proprietery software (Wavy for PBZ).

3 Basic Waveforms

Sine wave

Sine wave

Triangular wave

Triangular wave

Square waves

Square waves

16 User-Defined Waveforms (Default Waveforms)

Ramp
(rising)

Ramp (rising)

Ramp
(falling)

Ramp (falling)

Sine wave, half-cycle
(positive pole)

Sine wave, half-cycle (positive pole)

Sine wave, half-cycle
(negative pole)

Sine wave, half-cycle (negative pole)

Exponential function
(rising)

Exponential function (rising)

Exponential function
(falling)

Exponential function (falling)

Sine wave, half-wave rectification
(positive pole)

Sine wave, half-wave rectification (positive polarity)

Sine wave, half-wave rectification
(negative pole)

Sine wave, half-wave rectification (negative polarity)

Sine wave, full-wave rectification
(positive pole)

Sine wave, full-wave rectification (positive polarity)

Sine wave, full-wave rectification
(negative pole)

Sine wave, full-wave rectification (negative polarity)

Second order step response
(damping coefficient 0.1)

Second order step response (damping coefficient 0.1)

Second order step response
(damping coefficient 0.2)

Second order step response (damping coefficient 0.2)

Second order step response
(damping coefficient 0.7)

Second order step response (damping coefficient 0.7)

Second order impulse response
(damping coefficient 0.1)

Second order impulse response (damping coefficient 0.1)

Second order impulse response
(damping coefficient 0.2)

Second order impulse response (damping coefficient 0.2)

Second order impulse response
(damping coefficient 0.7)

Second order impulse response (damping coefficient 0.7)

Example Applications Expanded Through Waveform Generation

Power fluctuation test for automotive electronic components
Car navigation systems, others

Car navigation systems, others

Rechargeable battery charge/discharge test
Various rechargeable batteries

Various rechargeable batteries

Simulated battery charge/discharge test
Digital cameras, cellular phones, and others

Digital cameras, cellular phones, and others

Constant current source for pulse plating
HDD, others

HDD, others

Ripple Superimposition Testing
Various electrical storage elements

Various electrical storage elements

DC motor durability test
Printers, others

Printers, others

Constant current source for magnetic field generation
Helmholtz coil

Helmholtz coil

Others

  • Contact resistance test for breakers and relays
  • Characteristics test for solenoid valves, coils and others

Sequence function

Sequence customization for convenient waveform generation!

The basic sine, triangular and square waveforms (as well as the 16 user-defined waveforms) can be programmed per sequence step, allowing for easy creation of complex sequences. Sequences are composed of up to 1024 steps, which can be allocated among a maximum of 16 programs. The script function allows for multiple programs to be combined and executed as needed. As shown, Program 1 uses 8 steps, allowing for 1016 steps to be allocated among the remaining 15 programs. (1024 – 8 = 1016 steps) The script function allows the operator to specify the sequence and number of repitions for set programs. A maximum of 50 rows can be assigned to 1 script for both CV and CC mode.

Step and Program Settings

Step and Program Settings

Example of Script

Example of Script

Synchronized Operation

Seamless sequence execution with no deviation between synchronized units!

This feature allows the user to synchronize the output of multiple PBZ units when executing a sequence, preventing any deviations from occuring even during a long sequence. *Excluding start up delay of up to 1 μs

Multichannel voltage variation test example

Power for automotive vehicles is supplied by the battery, but the power is activated by multiple internal electronic components (+B→ACC→IG) turning ON/OFF in a specific order. There are an extremely large number of electronic components that can cause instability within the automobile, including engine start-up and electrical circuit chat-tering. Therefore, problems caused by this instability such as power interruptions and fluctuations can be planned for and avoided by performing rigorous voltage variation tests on all channels for automotive electronic components.

Example of using synchronized operation

Example of using synchronized operation

Car navigation system

  • CH1: +B LINE
    Power continuously supplied by the battery is distributed to components such as clocks and memory devices.
  • CH2: ACC LINE
    The power supply for car navigation systems are turned ON via the ignition switch’s ACC contact. After the switch is acti-vated, real-time navigation, radio, etc. become possible.
  • CH3: ILL LINE
    +Backup power supply line (ILL) that directly pulls up +B, IG, and ACC.

Car navigation system

Parallel operation function

Easily increase capacity!

This feature allows the user to increase the output current by connecting multiple units in parallel. This setup can easily be completed with 2 identical models and the optional parallel operation kit. For systems that require more than 3 units, please refer to the PBZ-SR Series.
* For systems that require more than 3 units, please refer to the PBZ-SR Series. For systems that require more than 6 units, please contact your local Kikusui distributor. (Standard models)

Parallel operation kit (option)

The optional accessory kit for connecting 2 PBZ units in parallel (same model). Please select the following kit that best fits your testing requirements.
*Bracket is not included for PK02-PBZ and PK03-PBZ

Unipolar mode

Full operation in quadrant 2

The unipolar function is unique to the PBZ. “Unipolar mode” allows the PBZ to apply current in both directions (source and sink) while current flows in a single direction. As seen in the diagram below, this feature allows the user full operation in the 1st and 2nd quadrants. Unipolar mode allows the user to bypass power restrictions (PBZ20-20: 100W, PBZ40-10: 180W) present in the 2nd and 4th quadrants when in bipolar mode.

Unipolar mode

High-speed response 100 kHz (CV)

100 kHz*1 /150 kHz*2 (CV mode)

100 kHz/150 kHz frequency specifications (CV). The excellent waveform quality combined with the ultra-fast rise/fall time of 3.5 μs allow the PBZ to reproduce a wide variety of waveforms of the highest quality.

Rise time example when 3.5 μs response is set

Rise time example when 3.5 μs response is set
*1 100 kHz for standard models (PBZ20-20, 40-10, 60-6.7, 80-5)
*2 150kHz for “A” models (PBZ20-20A)

Low Ripple Noise

Excellent waveform quality

The excellent waveform quality of the PBZ minimizes noise effects on simulations and pulse-driven devices.

Sample of actual 0.1 V step waveform Ripple 2 mVrms, noise 20 mVp-p (PBZ20-20)

Sample of actual 0.1 V step waveform
Ripple 2 mVrms, noise 20 mVp-p(PBZ20-20)
* PBZ40-10: Ripple 4 mVrms, noise 20 mVp-p
PBZ60-6.7: Ripple 4 mVrms, noise 30 mVp-p
PBZ80-5: Ripple 4 mVrms, noise 30 mVp-p

40% lighter than previous models

The switching + linear design of the PBZ has allowed for a 40% reduction in weight (approx. 22kg) resulting in the improved accessibility and portability of bench-top test systems.

Expanded measurement

Built-in measurement features allow for easy testing without the need for multimeters and other measurement devices. Furthermore, the measurement time TRIG signal allows the operator to program measurement start time and measurement delay time.

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Setting item
Voltage measurement DC Measurement range (resolution) 120% of rating(0.001V)
Accuracy *1 ±(0.05% of reading+0.05% of rating)
AC Measurement range (resolution) 120% of rating/CF(0.001V)
DC+AC Measurement range (resolution) 120% of rating(0.001V)
AC and DC+AC Accuracy*1*2 ±(0.5% of reading + 0.1% of rating)
(5 Hz to 10 kHz)
±(1% of reading + 0.2% of rating)
(10 Hz to 50 kHz)
±(2% of reading + 0.2% of rating)
(50 Hz to 100 kHz)
PEAK Measurement range (resolution) 120% of rating(0.01V)
PEAK Accuracy *1*3 ±(0.5% of rating)
Current measurement DC Measurement range 120% of rating(0.001A)
Accuracy *1 ±( 0.3% of reading + 0.1% of rating)
AC Measurement range (resolution) 120% of rating/CF(0.001A)
DC+AC Measurement range (resolution) 120% of rating(0.001A)
AC and DC+AC Accuracy*1*2 ±(3% of reading + 0.1% of rating)
(5 Hz to 10 kHz)
±(10% of reading + 1% of rating)
(10 Hz to 100 kHz)
PEAK Measurement range (resolution) 120% of rating(0.01A)
PEAK Accuracy *1*3 ±(0.5% of rating)
Measurement time 100 μs to 3600 s

*1. At ambient temperature of 18 °C to 28 °C. *2. When the input signal is a sine wave with a crest factor of 3 or less within the prescribed frequency range and the measurement time is no more than 10 times the period of the input signal. *3. Peak value of a 1 kHz sine wave.

Memory function

Preset memory

Stores setting conditions most often used. Three memory slots are available for CV mode and CC mode. Settings stored are limited to DC signal and AC signal.

Setup Memory

This can be used as general memory storing all basic settings. Up to 10 memories can be set, regardless of mode.

CC/CV selection feature

Select CV mode when using constant-voltage, and CC when using constant-current. The voltage and current uppower/lower limits utilize a “V” and “I” limit function.

Response switching

Response speeds can be switched in both CV and CC mode. The output voltage and current rise/fall time will be effected by the response settings. (Response time setting indicates rise/fall time.)

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Setting description CV mode CC mode
Voltage response Current response
PBZ20-20 PBZ40-10 PBZ60-6.7 PBZ80-5
Selectable values 3.5μs 35μs 70μs 35μs 35μs
10μs 100μs 100μs 100μs 100μs
35μs 350μs 350μs 350μs 350μs
100μs 1 ms 1 ms 1 ms 1 ms
Factory default setting 3.5μs 35μs 70μs 35μs 35μs

Protections (overvoltage, overcurrent, V-I LIMIT, overheating)

Overvoltage and overcurrent protection

This protection activates when the output voltage/current exceeds theprotective trip points. The protective trip points can be set seperately in both positive (+) and negative (-) polarities. The following three options can be selected when a protection is activated.

  • OUTPUT-OFF: Output is turned OFF.
  • POWER-OFF: Output and POWER switch are turned OFF.

Protections OVP/OCP

  • V/I-LIMIT
    Prevents voltage and current exceeding the protection trip points. (Output is not turned OFF.)
    The V-I/LIMIT function allows the unit to automatically switch from CV mode to I-LIMIT and from CC mode to V-LIMIT. This also allows the unit to automatically switch from CV mode to CC mode, and from CC mode to CV mode.

Protections V-LIMIT/I-LIMIT

Overheat protection

This protection is activated when the PBZ temperature reaches abnormally high levels. This protection protects the product from test environments that exceed the ambient temperature, or when sufficient ventilation has not been provided for the intake and exhaust ports.

Soft start and soft stop function

The soft start feature allows the user to gradually increase the output to a given value when turned ON. With soft stop, the user can gradually decrease the output from a given value to 0 when turned OFF. Soft start and stop times can only be set for DC settings. If the OUTPUT key is pressed while soft start or soft stop is in progress, the operation will be cancelled and output turned OFF.

Soft start and soft stop function

Fine settings function

Fine adjustments (increase, decrease) can be made to the DC setting value.

Input range

  • PBZ20-20A/PBZ20-20
    CV: DC setting value ±1.0000V, resolution 0.0001V
    CC: DC setting value ±1.0000A, resolution 0.0001A
  • PBZ40-10
    CV: DC setting value ±2.0000V, resolution 0.0001V
    CC: DC setting value ±0.5000A, resolution 0.0001A
  • PBZ60-6.7
    CV: DC setting value ±3.0000V, resolution 0.0002V
    CC: DC setting value ±0.3350A, resolution 0.0001A
  • PBZ80-5
    CV: DC setting value ±4.0000V, resolution 0.0002V
    CC: DC setting value ±0.2500A, resolution 0.0001A

Fine settings function

key lock

3 levels of key lock are available.

  • Disable all key operations other than OUTPUT, RECALL, and A,B,C memory functions.
  • Disable all key operations other than OUTPUT.
  • Disable all key operations. (excluding KEY LOCK (SHIFT + LOCAL) KEY)

Remote sensing function

Remote sensing function stabilizes the load terminal output voltage by compensating for voltage drops caused by resistance in the load wires. This function can be used in CV mode with one-way compensation of up to approx. 0.5 V. Please make sure to select load wires with sufficient current capacity so that load wire voltage drop does not exceed the voltage compensation.

Output voltage/current monitor

  • Voltage monitor
    Rear panel (J1 connector)
    0 to ±2V from 0V to ± rated voltage
  • Current monitor
    Front panel (BNC terminal)
    0 to ±2V from 0A to ± rated current
    Frequency characteristics DC to 20kHz (-3dB)
    Rear panel (J1 connector)
    0 to ±2V from 0A to ± rated current

External control

  • External output ON/OFF
  • Shutdown

Status signal output

CV, CC, OUTPUT, and ALARM are output.

External signal input (external voltage control)

The PBZ series is compatible with two types of input signals.

  • The DC signal from the internal signal source can be controlled via external voltage at the rear panel (J1 connector) from DC control signal 0 to approx. ±10 V.

External signal input (external voltage control)

  • Front panel EXT SIG IN (BNC terminal) input signal.
    Composed of a bipolar amplifier using EXT SIG IN (BNC terminal) as the input signal. The amplif ier gain, polar it y (inver ted, non – inver ted) and offset can be set with a maximum input voltage of ±12 Vpeak, maximum input impedance of 10 kΩ, and a common terminal connected to OUTPUT terminal COM.

External signal input (external resistance control)

DC signal of the internal signal source can be controlled using an external variable resistor to change the standard voltage and voltage ratio. With CV and CC mode, the operator can control both voltage and current, respectively. The output is the sum of the external resistor setting, DC panel setting, and remote controller setting.

External signal input (external resistance control)

Temperature-sensitive fan motor

Internal temperature is detected and maintained with an internal fan cooling system.

Interface

USB, GPIB and RS232C standard digital interface. For LAN (option), See here.

 

PBZ20-20A
Peak Current Output (6x Rating)

Inrush current output up to 6 times the rating! (CV mode)

The PBZ20-20A Intelligent Bipolar Power Supply has the high speed response to meet the demands of voltage fluctuation tests (Pulse2b, Pulse4, etc.) for international standards such as the ISO16750-2 and ISO7637-2 as well as for the increasingly complicated fluctuation waveform tests required by automotive manufacturers. The PBZ20-20A is also equipped to easily comply with the steady increase of electronic components per vehicle (high power capacitors, etc.) and total current (esp. peak current) required in modern-day automotive testing.

The PBZ20-20A is capable of generating a short-term peak current up to 6 times the rating when current response is set to 1ms in CV mode.Other response settings will activate the current limit and allow the operator to safely use the device without 6x peak current output. When current response is set to 1ms, the PBZ20-20A automatically decreases response speed and allows for peak current ouput while the current limit is deactivated. This means that the current function will be active at all times when short-term peak current is not output and will have no effect on current response in CC mode. Short-term peak current output is available in both bipolar and unipolar mode.

PBZ20-20A peak current support

Recommended Peak Current Duration and Range (Protection)

We recommend a maximum peak current output of up to 6 times the rating (5 times depending on output voltage) within a duration of 10ms (blue area on left). A minimum interval of at least 1 second is required between peak currents, as shorter intervals can cause hardware malfunction. The figure on the left shows the peak and rms current limits when the output is shorted.

  • In the peak limit area, peak current is capped at 105% of 6x the rating and can be retained for at least 10 ms.
  • There are cases where normal waveforms cannot be generated within the peak limit area. Current limits will still be active ensuring the safety of the operator.
  • In the rms limit area, the peak current is limited by the rms value. The current will decrease down to the rated current according to the duration settings.
  • When sinking power in quadrant 2 and 4, power will be limited after 10 ms and the regular current limit will be activated.

recommended area

Maximum Peak Current and Terminal Voltage Output

Example: PBZ20-20A

Maximum Peak Current and Terminal Voltage Output

Power variation test

Power variation test

PBZ SR Series

The PBZ SR series is a series of high-power bipolar DC stabilized power supplies. Based on the PBZ Intelligent Bipolar power supply series, this model supports large currents (up to ±100 A) and is assembled with exclusive rack parts (Smart Rack). 4-quadrant oper ation allows power to be supplied (source) or absorbed (sink), making this series suitable for driving inductive loads or capacitive loads. Also, LAN, USB, GPIB, and RS232C are provided (standard) as communication interfaces.

PBZ SR Series Features

PBZ BP Series

The PBZ BP series is a series of high-power bipolar DC stabilized power supplies. Based on the PBZ Intelligent Bipolar power supply series, this model supports large currents (up to ±200 A) and is assembled with rack system (bipolar pack). 4-quadrant operation allows power to be supplied (source) or absorbed (sink), making this series suitable for driving inductive loads or capacitive loads. Also, LAN, USB, GPIB, and RS232C are provided (standard) as communication interfaces.

PBZ BP Series Features

Specifications

PBZ Series
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Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-20 ±20 ±20 2 mV/20 mV(TYP) 3mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 100 to 240 10 (max)
PBZ40-10 ±40 ±10 4 mV/20 mV(TYP)
PBZ60-6.7 ±60 ±6.7 4 mV/30 mV(TYP)
PBZ80-5 ±80 ±5
PBZ20-20A
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Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-20A ±20 ±20 2 mV/20 mV(TYP) 3mA (TYP) ±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 100 to 240 10 (max)
PBZ SR Series
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Three parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-60 SR ±20 ±60 3 mV/30 mV(TYP) 5mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
15A (max)
PBZ40-30 SR ±40 ±30 6 mV/30 mV(TYP)
PBZ60-20.1 SR ±60 ±20.1 6 mV/40 mV(TYP)
PBZ80-15 SR ±80 ±15

Four parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-80 SR ±20 ±80 3 mV/30 mV(TYP) 5mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
20A (max)
PBZ40-40 SR ±40 ±40 6 mV/30 mV(TYP)
PBZ60-26.8 SR ±60 ±26.8 6 mV/40 mV(TYP)
PBZ80-20 SR ±80 ±20

Five parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-100 SR ±20 ±100 3 mV/30 mV(TYP) 5mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
25A (max)
PBZ40-50 SR ±40 ±50 6 mV/30 mV(TYP)
PBZ60-33.5 SR ±60 ±33.5 6 mV/40 mV(TYP)
PBZ80-25 SR ±80 ±25
PBZ BP Series
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Six parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-120 BP ±20 ±120 6 mV / 50 mV (TYP) 10mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
30 (max)
PBZ40-60 BP ±40 ±60 12 mV / 50 mV (TYP)

Seven parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-140 BP ±20 ±140 6 mV / 50 mV (TYP) 10mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
35 (max)
PBZ40-70 BP ±40 ±70 12 mV / 50 mV (TYP)

Eight parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-160 BP ±20 ±160 6 mV / 50 mV (TYP) 10mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
40 (max)
PBZ40-80 BP ±40 ±80 12 mV / 50 mV (TYP)

Nine parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-180 BP ±20 ±180 6 mV / 50 mV (TYP) 10mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200 to 240
Single phase
45 (max)
PBZ40-90 BP ±40 ±90 12 mV / 50 mV (TYP)

Ten parallel type

Specifications Output Ripple noise Line regulation Load regulation AC input
Model CV CC CV CC CV CC CV CC Nominal Voltage Current
V A rms/p-p rms mV mA mV mA V A
PBZ20-200 BP ±20 ±200 6 mV / 50 mV (TYP) 10mA
(TYP)
±0.005%+1 ±0.01%+1 ±0.005%+1 ±0.01%+1 200
Single phase
50 (max)
PBZ40-100 BP ±40 ±100 12 mV / 50 mV (TYP)

Line-up

Options

Series options. For more information on optional products, please refer to the individual product pages.

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Intelligent Bipolar Power Supply - PBZ Series

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