Vitrek 95x Series Hipot Tester – 11KVDC 6KVAC/IR/GB/LR Electrical Safety Compliance Analyzer. Comes with: TL209, K2R, Power Cord, Operating Manual, QTPro II950 45 day free trial, NIST Traceable Calibration Certificate without data. ISO 17025 accredited calibration certificate with data and uncertainties available with purchase at a reduced price with part number: ISOCALN95X.
954i
$6,505.00
 Description
 Additional information
 95x Series Hipot Tester Product Overview
 95x Series Hipot Tester Features
 95x Series Hipot Tester Specifications
 95x Series Hipot Tester Downloads
Description
Vitrek 95x Series Hipot Tester – 11KVDC 6KVAC/IR/GB/LR Electrical Safety Compliance Analyzer. Comes with: TL209, K2R, Power Cord, Operating Manual, QTPro II950 45 day free trial, NIST Traceable Calibration Certificate without data. ISO 17025 accredited calibration certificate with data and uncertainties available with purchase at a reduced price with part number: ISOCALN95X.
Additional information
Weight  35 lbs 

Dimensions  22 × 21 × 6 in 
Resolution  0.1V up to 999.9V, 1V above 
Accuracy  0.25% + 0.5V ( 1 year 23°C ± 3°) 
Discharge  25mA max in solidstate constant current discharge mode, selectable same as ramp rate or ramp to next level if next step is DCW, DCez or DCIR 
Measurement Period  1 power line cycle (50/60Hz) 
95x Series Hipot Tester Product Overview
Power & Versatility for your Most Demanding Electrical Safety Test Applications
Vitrek built the 95X Series from the ground up with DSP technology – to bring you the safest, fastest, most capable, feature rich hipot testers available. The 95X Series combines high output power, with a wide range of AC & DC voltage outputs and extremely low leakage current measurement. Then we added a 4wire milliohmmeter with dynamic range up to 100K ohms and an overlapping Teraohm class Insulation Resistance function. Top that off with an available 40 Amp Ground Bond capability and you’re just beginning to get a feel for what the Vitrek 95X Series Hipot Testers can do for you.
More Speed, More Power, Better Resolution, More Functionality
What more could you want in an Electrical Safety Tester?
Vitrek 95X Series Hipot Testers
For more than 25 years Vitrek has been driven by an obsession to build a better hipot tester. Increased user safety, faster test times, higher output voltages and more functionality have been our driving force. The 95X series is the result of this pursuit – offering power, speed, accuracy and resolution that leave the others far behind.
For Demanding Hipot Tests – Demand the Vitrek 95X
Speed and power go hand in hand, the 6.5KVDC models offer 50mA of source current for DC Hipot – providing the power you need to rapidly charge and discharge challenging DUTs. Models are also available with DC hipot up to 11KV and 15KV. Most of the 95x series also offer 50mA of sourcing for AC hipot, but for heavier AC loads the 95X can be configured to source up to 100mA or even as much as 200mA. For higher AC hipot voltages the 95X can generate up to 10KV internally and all models are available with an external 30KVAC hipot option.
When it comes to making critical leakage current measurements, the 95X delivers rocksolid resolution down to 100 picoamps. This high resolution provides builtin insulation resistance measurement (IR) up to a Teraohm, add a 4wire milliohmmeter with autoranging up to 100K ohm and an available 40 amp Ground Bond function – and you are beginning to understand the versatility of the Vitrek 95X Series.
Need To Hipot Multiple Test Points?
The 95X has the ability to directly control up to four 64 channel HV scanners, right out of the box. That is up to 256 test points and using a PC with Vitrek’s QuickTest Pro software you can expand the count up to 640 test points. The HV Switching System of choice is the Vitrek 964i which can hold eight 8 channel switching cards – available in 7, 10 & 15 KV ratings. The 964i also has switching cards to handle routing up to 40 amp ground bond currents.
95x Series Hipot Tester Features
Product Features and Benefits
 Highest Level of Operator Safety – features include: GFI High speed shut down for earth ground leakage faults, SFI™ Safety Fault Interlock – High speed shut down output for interruption of safety interlock, TLSS™ Test Lead Safety Sense – Clamps DUT chassis near ground by continuously verifying proper connection of test leads prior to and during HV testing, Recessed start switch prevents inadvertent actuation
 High Power Output – means better drive capability and increased test throughout. With up to 50mA of sourcing current for DC hipot the 95X Series gets heavy duty jobs done fast – available 100mA & 200mA AC drive tackles even the toughest sourcing requirements
 Wide Range of builtin Voltage Capabilities – Choose from 6.5KVDC, 11KVDC or 15KVDC and 6KVAC, 10KVAC or up to 30KV RMS AC with external option
 The Fastest Hipot Testers available – Thanks to our Dual Coldfire® microprocessors combined with Dual DSPs to provide Ramp rates up to 50KV/second, dwell times as low as 20mS and overall test times as fast as 3mS in optional Flash mode
 Expansive Test Sequence Memory holds up to 100 tests with up to 100 steps per test. Tests can be selected via front panel, Ethernet, RS232, Digital I/O or with optional GPIB
 Ground Bond Test Capability available in three models with output currents from 100mA to 40Amps RMS and test times from 20mS to 1000 seconds or longer

4Wire MilliOhmmeter Function provides fast, accurate 5 digit resistance measurements with resolution down to 100µΩ and range up to 100K ohm

Builtin Phase Angle Measurement – allows the measurement and display of both resistive (inphase) leakage current and reactive (outofphase) leakage current caused by capacitive coupling

MultiDwell Functionality – permits dwells at different voltage levels without having to return to zero between test steps – dramatically simplifying advanced analysis of dielectric properties

Ramp High/Dwell Low Current Limits – permits the user to set separate limits for the ramp and dwell providing faster ramp times and lower leakage test limits

Ethernet, RS232, Digital I/O, USB Printer & Scanner Control – All Standard Interfaces – Provides the highest level of test automation. GPIB optional

High Voltage Scanner Control – up to 256 point switching capability with available 964i HV Scanners. Route voltages up to 15KV and currents up to 40A for multipoint hipot and ground bond tests

Dual Dimensional / Test Specific / Broadband Arc Detection. Where lesser testers allow you to set a single, global, amplitude only arc limit – the technologically advanced 95X Series utilizes time & amplitude based arc limits and uniquely applies them to each desired test

PicoAmp Leakage Measurement insures that even the lowest leakage current levels are accurately detected and teraohm range IR readings are stable and precise

Test Specific Fixture & Cable Compensation – Automatically calibrate out offset errors caused by lead resistance, fixture capacitance and leakage

MultiMode IR – Insulation Resistance values up to one Teraohm can be obtained with precision in your choice of 3 IR test modes – end on time, end on pass or end on fail

Continuously Variable IR Test Voltage – Unlike most IR testers which limit you to 3 or 4 discrete test voltages, the 950i Series allows you to select the test voltage you need. Starting as low as 20V all the way to 6.5KV, 11KV or 15KVDC

Capacitance Test Modes – For AC & DC hipot and IR provide tightly controlled charge and discharge profiles for superior results on critical solar panel tests and other highly capacitive loads

Light Weight Switching Power Supply Design – Better reliability, easier on your back. Compare the 8.2 kg 95X to whatever you’ve been using

400Hz AC Voltage Withstand Testing provides aviation frequency specific test results for a more effective analysis of dielectric properties on avionic components

Solar Panel Testing Simplified – Designed with PV testing in mind, the 950i Series uses picoamp resolution to detect minute defects in solar cells

3 Year Extended Warranty – 1 year standard, total of 3 years extended warranty with registration and annual factory calibration. Builtin reliability you can count on for years to come

Safety Tested per EN 610101. EMC compliant to EN 613261
95x Series Hipot Tester Specifications
Specifications are valid at the 95x terminals for 1 year at ambient temperatures within ±5C of calibration temperature (add 5% of accuracy specification per C outside of this). All specifications are relative to the calibration standards used. Add ½ digit to all accuracies for displayed results (results available with enhanced resolution from interfaces).
AC VOLTAGE WITHSTAND AND LEAKAGE TESTING (ACEZ, ACW AND ACCAP)
LOADING CAPABILITY
The listings below show the maximum loading current and power capabilities of the 95x at ambient temperatures ≤30C. For ambient temperatures above 30C linearly reduce the maximum loading current and power by 1%/C.
For frequencies above 100Hz other than 400Hz, the user should linearly interpolate using the <100Hz and 400Hz capabilities shown in the applicable listing.
Where both a current and power limit is shown, the most stringent limit applies.
951i954i and 957i, <100Hz : 50mArms (40mArms resistive), reduce by 0.08mA per V above 5525Vrms
951i954i and 957i, 400Hz : 35mArms, reduce by 0.065mA per V above 5600Vrms
Option AC2, <100Hz : 200mArms (135mArms resistive), reduce by 0.67mA per V above 1750Vrms
Option AC2, 400Hz : 140mArms, reduce by 0.4mA per V above 1700Vrms
Option 500VA, <100Hz : 100mArms (50mArms resistive), reduce by 0.14mA per V above 5425Vrms 500VA Above 65mArms has a limited test time (e.g. 1sec at 100mArms)
Option 500VA, 400Hz : 85mArms (50mArms resistive), reduce by 0.11mA per V above 5375Vrms Above 65mArms has a limited test time (e.g. 1sec at 100mArms)
955i and 957i Opt. AC10, <100Hz : 30mArms (20mArms resistive)
955i and 957i Opt. AC10, 400Hz : 22mArms
Option AC30 : 10mArms (7mArms resistive) 250VA
SURGE CURRENT LIMITING AND SHUTDOWN
Impedance Limiting
9514i and 957i (standard build) : 12KΩ + 0.5H
Opt. 500VA : 7KΩ + 0.25H
Opt. AC2 : 1.4KΩ + 0.2H
955i and 957i Opt. AC10 : 25KΩ + 1.0H
SOURCE set to EXT : 200KΩ
Peak Shutdown Current
9514i and 957i (standard build) : 120mA
Opt. 500VA : 145mA
Opt. AC2 : 280mA
955i and 957i Opt. AC10 : 60mA
SOURCE set to EXT : 21mA
DUT GROUNDED set to YES : 50mA
TEST VOLTAGE AND FREQUENCY
Test Voltage Range
9514i and 957i (standard build or Opt. 500VA) : 20 to 6000Vrms, reduce maximum voltage by 0.6V per Hz above 100Hz
955i and 957i Opt. AC10 : 50 to 10000Vrms, reduce maximum voltage by 1V per Hz above 100Hz
Opt. HSS : 20 to 4000Vrms
Opt. AC2 : 10 to 2000Vrms, reduce maximum voltage by 0.2V per Hz above 100Hz
Opt. AC30 : 120 to 30000Vrms
For line voltages below 115V linearly reduce the maximum test voltage by 1%/V unless Opt. LOLINE is fitted (there is no reduction for Opt. LOLINE).
Test Voltage Accuracy
<(± 0.5% ± 1.5V ± (0.01% + 0.2V) per mArms load ± 0.01% per Hz above 100Hz)
955i and 957i Opt. AC10 : Add ±0.1% above 7000Vrms
Opt. AC30 : <(± 1.5% ± 5V ± (0.05% + 1V) per mArms load)
Test Voltage Overshoot
<5% ( <2% (>0.5s ramp time) Settling to
<±0.5% of final value in
Test Voltage Waveform
Sinewave, 1.35 – 1.46 Crest Factor
Test Frequency Range
9514i and 957i : 20 to 500Hz
955i and 957i Opt. AC10 : 40 to 500Hz
Opt. AC30 : 40 to 80Hz
Test Frequency Accuracy
<±0.1%
CURRENT MEASUREMENTS (DUT ISOLATED)
Measurements are performed in the RETURN terminal of the 95x.
Breakdown Current
1uA to 280mApk (DC50kHz bandwidth)
<(± 1% ± 1uA) accuracy
<30usec detection time, <3msec response time (typically <500usec)
Leakage Current
0.0nA to 200mArms (RMS, Inphase or Quadrature)
Greater of 1 cycle or 10ms measurement period
RMS : <(± 0.5% ± 10nA ± 0.15nA per kV*Hz) accuracy
InPhs : <(± 0.5% ± 10nA ± 0.01nA per kV*Hz) accuracy
Quad : <(± 0.5% ± 10nA ± 0.15nA per kV*Hz) accuracy
Add 0.005% per Hz above 100Hz
955i and 957i Opt. AC10 : Add 50nA (RMS, InPhs and Quad) above 7000Vrms
<±0.005° per Hz phase relative to test voltage (InPhs, Quad)
Arc Current
1 to 30mArms (50KHz5MHz bandwidth)
<(± 10% ± 1mA) accuracy at 1MHz
4us, 10us, 15us, 20us, 30us or 40us measurement period
Cable Compensation
<(± 1% of error ± 0.01pF)
CURRENT MEASUREMENTS (DUT GROUNDED, OPTION HSS ONLY)
Measurements are performed in the HV terminal of the 95x.
Breakdown Current
1uA to 50mApk (DC50kHz bandwidth)
<(± 1.5% ± 1uA) accuracy
<30usec detection time, <3msec response time (typically <500usec)
Leakage Current
0.0nA to 35mArms (RMS, Inphase or Quadrature)
Greater of 1 cycle or 10ms measurement period
RMS or Quad : <(± 1.5% ± 100nA ± 10nA per kV*Hz) accuracy
InPhs : <(± 1.5% ± 100nA ± 1nA per kV*Hz) accuracy
Add 0.005% per Hz above 100Hz
<±0.005° per Hz phase relative to test voltage (InPhs, Quad)
Cable Compensation
<(± 1% of error ± 0.1pF)
CAPACITANCE AND DISSIPATION FACTOR MEASUREMENTS (ACCAP TYPE)
Capacitance
Add Test Voltage, Frequency, and Quad Leakage Current Accuracies as percentages
Examples at 1000V/60Hz with an isolated DUT –
1pF (= 377nA) : 0.65% + 0.1% + 4.73% = ±5.48%
10pF (= 3.77uA) : 0.65% + 0.1% + 0.92% = ±1.67%
100pF (= 37.7uA) : 0.65% + 0.1% + 0.54% = ±1.29%
1nF (= 377uA) : 0.65% + 0.1% + 0.5% = ±1.25%
10nF (= 3.77mA) : 0.65% + 0.1% + 0.5% = ±1.25%
100nF (= 37.7mA) : 0.65% + 0.1% + 0.5% = ±1.25%
Dissipation Factor
For test voltages >100V at 60Hz and capacitive load currents >200uA, the DF accuracy is ±0.005.
For accuracy under other circumstances please contact ViTREK.
TEST TIMING
Ramp
0.00 to 9999sec <(± 1% ± 0.1sec ± 1 cycle) accuracy
Dwell
0.02 to 9999sec or user terminated <(± 0.05% ± 20ms ± 1 cycle) accuracy
Fast Discharge
<(20ms + 1 cycle)
DC VOLTAGE WITHSTAND AND LEAKAGE TESTING (DCEZ, DCW AND DCIR)
Loading Capability
The listings below show the loading capabilities of the 95x at ambient temperatures ≤30C. For ambient temperatures above 30C linearly reduce the maximum loading power and current by 1%/C.
Output powers above 200W have a limited test time (e.g. 4 seconds at 250W).
Capacitive loading is only limited by the maximum ramp time (9999.9sec) and the maximum load current, typically this is a 1F load.
951i, 952i and 956i : <50mA, reduce by 0.05mA per V above 6000V
953i, 954i and 955i : <9000V : <30mA, reduce by 0.0067mA per V above 6000V, >9000V : <10mA, reduce by 0.0025mA per V above 9000V
957i : <10mA, reduce by 0.001mA per V above 10000V
Surge Current Limiting and Shutdown
Impedance Limiting
951i, 952i and 956i : 6.5KΩ
953i, 954i and 955i : 12.5KΩ
957i : 24 KΩ
Peak Shutdown Current
951i, 952i and 956i : 80mA (50mA if DUT GROUNDED set to YES)
953i, 954i and 955i : 40mA
957i : 20mA
Test Voltage
Test Voltage Range
951i, 952i and 956i : 30 to 6500V
953i, 954i and 955i : 50 to 11000V
957i : 75 to 15000V
Opt. HSS : 30 to 5000V
For line voltages below 115V linearly reduce the maximum test voltage by 1%/V unless Opt. LOLINE is fitted (there is no reduction for Opt. LOLINE).
Test Voltage Accuracy
Except 957i: <(± 0.25% ± 1.25V ± (0.01% + 0.05V) per mA load)
957i: <(± 0.75% ± 2V ± (0.01% + 0.05V) per mA load), add 0.5% above 10000V
Test Voltage Overshoot
<5% ( <1%
Settling to <±0.1% of final value in <0.5sec
Current Measurements (DUT Isolated)
Measurements are performed in the RETURN terminal of the 95x.
Breakdown Current
1uA to 280mApk (DC50kHz bandwidth)
<(± 1% ± 1uA) accuracy
<30usec detection time
<3msec response time (typically <500usec) Leakage Current 0.0nA to 200mA 7.25msec measurement period (100ms for dwell time >2 sec)
<(± 0.25% ± 0.5nA) accuracy
Capacitive Loading Effects :
951i, 952i and 956i : add X * (± 0.2nA ± (2.5nA per KV))
953i, 954i and 955i : add X * (± 0.3nA ± (3.5nA per KV))
957i : add X * (± 0.5nA ± (5nA per KV))
X = (C/0.01uF) below 0.01uF, or X = √(C/1uF) above 1uF, or otherwise X = 1.0
Arc Current
1 to 30mArms (50KHz5MHz bandwidth)
<(± 10% ± 1mA) accuracy at 1MHz
4us, 10us, 15us, 20us, 30us or 40us measurement period
Cable Compensation
<(± 1% of error)
Resistance Measurements (DUT Isolated)
Measurements are performed between the HV and RETURN terminals of the 95x.
For applied voltage, breakdown current and arc current accuracies see above.
In the chart below R is the reading in Ohms, C is the capacitive loading. Interpolate between voltages as needed, for accuracies at capacitances above 5uF consult ViTREK. Accuracies are shown as the percentage of the reading.
Test Voltage 
C < 0.01uF 
C = 0.01uF to 1uF 
C = 1uF to 5uF 
951i, 952i or 956i 

50V 
10K30GΩ : ±0.8%±(R/1GΩ)% 
10K20GΩ : ±0.8%±(R/600MΩ)% 
10K10GΩ : ±0.8%±(R/400MΩ)% 
100V 
10K60GΩ : ±0.7%±(R/2GΩ)% 
10K30GΩ : ±0.7%±(R/1GΩ)% 
10K20GΩ : ±0.7%±(R/600MΩ)% 
250V 
10K150GΩ : ±0.6%±(R/5GΩ)% 
10K60GΩ : ±0.6%±(R/1.5GΩ)% 
10K30GΩ : ±0.6%±(R/1GΩ)% 
500V 
10K300GΩ : ±0.6%±(R/10GΩ)% 
10K80GΩ : ±0.6%±(R/2.5GΩ)% 
10K40GΩ : ±0.6%±(R/1GΩ)% 
1000V 
20K600GΩ : ±0.6%±(R/20GΩ)% 
20K100GΩ : ±0.6%±(R/3GΩ)% 
20K50GΩ : ±0.6%±(R/1.5GΩ)% 
2500V 
50K1.5TΩ : ±0.6%±(R/50GΩ)% 
50K100GΩ : ±0.6%±(R/3GΩ)% 
50K50GΩ : ±0.6%±(R/1.5GΩ)% 
5000V 
100K3TΩ : ±0.6%±(R/100GΩ)% 
100K100GΩ : ±0.6%±(R/3GΩ)% 
100K50GΩ : ±0.6%±(R/1.5GΩ)% 
953i, 954i or 955i 

50V 
10K30GΩ : ±0.8%±(R/1GΩ)% 
10K15GΩ : ±0.8%±(R/500MΩ)% 
10K10GΩ : ±0.8%±(R/300MΩ)% 
100V 
10K60GΩ : ±0.7%±(R/2GΩ)% 
10K25GΩ : ±0.7%±(R/800MΩ)% 
10K15GΩ : ±0.7%±(R/500MΩ)% 
250V 
10K150GΩ : ±0.6%±(R/5GΩ)% 
10K40GΩ : ±0.6%±(R/1.3GΩ)% 
10K25GΩ : ±0.6%±(R/750MΩ)% 
500V 
17K300GΩ : ±0.6%±(R/10GΩ)% 
17K60GΩ : ±0.6%±(R/1.75GΩ)% 
17K30GΩ : ±0.6%±(R/900MΩ)% 
1000V 
34K600GΩ : ±0.6%±(R/20GΩ)% 
34K75GΩ : ±0.6%±(R/2GΩ)% 
34K35GΩ : ±0.6%±(R/1GΩ)% 
2500V 
84K1.5TΩ : ±0.6%±(R/50GΩ)% 
84K80GΩ : ±0.6%±(R/2.5GΩ)% 
84K40GΩ : ±0.6%±(R/1GΩ)% 
5000V 
167K3TΩ : ±0.6%±(R/100GΩ)% 
167K90GΩ : ±0.6%±(R/2.5GΩ)% 
167K40GΩ : ±0.6%±(R/1GΩ)% 
10000V 
1.34M6TΩ : ±0.6%±(R/200GΩ)% 
1.34M90GΩ : ±0.6%±(R/2.5GΩ)% 
1.34M40GΩ : ±0.6%±(R/1GΩ)% 
957i 

100V 
10K60GΩ : ±1.2%±(R/2GΩ)% 
10K20GΩ : ±1.2%±(R/500MΩ)% 
10K10GΩ : ±1.2%±(R/300MΩ)% 
250V 
25K150GΩ : ±1.1%±(R/5GΩ)% 
25K30GΩ : ±1.1%±(R/1GΩ)% 
25K15GΩ : ±1.1%±(R/500MΩ)% 
500V 
50K300GΩ : ±1.1%±(R/10GΩ)% 
50K40GΩ : ±1.1%±(R/1.3GΩ)% 
50K20GΩ : ±1.1%±(R/650MΩ)% 
1000V 
100K600GΩ : ±1.1%±(R/20GΩ)% 
100K50GΩ : ±1.1%±(R/1.5GΩ)% 
100K25GΩ : ±1.1%±(R/700MΩ)% 
2500V 
250K1.5TΩ : ±1.1%±(R/50GΩ)% 
250K60GΩ : ±1.1%±(R/1.75GΩ)% 
250K25GΩ : ±1.1%±(R/800MΩ)% 
5000V 
500K3TΩ : ±1.1%±(R/100GΩ)% 
500K60GΩ : ±1.1%±(R/1.8GΩ)% 
500K25GΩ : ±1.1%±(R/800MΩ)% 
10000V 
1M6TΩ : ±1.1%±(R/200GΩ)% 
1M60GΩ : ±1.1%±(R/1.8GΩ)% 
1M25GΩ : ±1.1%±(R/800MΩ)% 
15000V 
3M10TΩ : ±1.6%±(R/300GΩ)% 
3M60GΩ : ±1.6%±(R/1.8GΩ)% 
3M25GΩ : ±1.6%±(R/800MΩ)% 
Current Measurements (DUT Grounded, option HSS only)
Measurements are performed in the HV terminal of the 95x.
Breakdown Current
1uA to 50mApk (DC50kHz bandwidth)
<(± 1% ± 1uA) accuracy
<30usec detection time
<3msec response time (typically <500usec) Leakage Current 0.00uA to 50mA 7.25msec measurement period (100ms for dwell time >2 sec)
<(± 1% ± 50nA ± (10nA per KV)) accuracy
Capacitive Loading Effects :
Add X * (± 0.2nA ± (2.5nA per KV))
X = (C/0.01uF) below 0.01uF, or X = √(C/1uF) above 1uF, or otherwise X = 1.0
Cable Compensation
<(± 1% of error)
Resistance Measurements (DUT Grounded, option HSS only)
Measurements are performed between the HV terminal of the 95x and ground.
For applied voltage, breakdown current and arc current accuracies see above.
In the chart below R is the reading in Ohms, C is the capacitive loading. Interpolate between voltages as needed, for accuracies at capacitances above 5uF consult ViTREK.
Test Voltage 
C < 0.01uF 
C = 0.01uF to 1uF 
C = 1uF to 5uF 
50V 
10K300MΩ : ±1.5%±(R/10MΩ)% 
10K300MΩ : ±1.5%±(R/10MΩ)% 
10K300MΩ : ±1.5%±(R/10MΩ)% 
100V 
10K600MΩ : ±1.4%±(R/20MΩ)% 
10K600MΩ : ±1.4%±(R/19MΩ)% 
10K600MΩ : ±1.4%±(R/18MΩ)% 
250V 
10K1.5GΩ : ±1.3%±(R/45MΩ)% 
10K1.5GΩ : ±1.3%±(R/45MΩ)% 
10K1.4GΩ : ±1.3%±(R/40MΩ)% 
500V 
10K3GΩ : ±1.3%±(R/90MΩ)% 
10K2.75GΩ : ±1.3%±(R/80MΩ)% 
10K2.6GΩ : ±0.6%±(R/80MΩ)% 
1000V 
20K5GΩ : ±1.3%±(R/160MΩ)% 
20K5GΩ : ±1.3%±(R/150MΩ)% 
20K4.5GΩ : ±1.3%±(R/130MΩ)% 
2500V 
50K11GΩ : ±1.3%±(R/300MΩ)% 
50K9GΩ : ±1.3%±(R/250MΩ)% 
50K8GΩ : ±1.3%±(R/240MΩ)% 
4000V 
80K14.5GΩ : ±1.3%±(R/400MΩ)% 
80K12GΩ : ±1.3%±(R/350MΩ)% 
80K9.5GΩ : ±1.3%±(R/280MΩ)% 
Test Timing
Ramp
0.01 to 9999sec
50kV/sec max slew rate
<(± 1% ± 0.1sec) accuracy with typical loads
0.5sec minimum for 957i only
Dwell
0.02 to 9999sec or user terminated
<(± 0.05% ± 20ms) accuracy (add 100ms for dwell time >2 sec)
Delay
0.00 to 9999sec
<(± 0.05% ± 20ms) accuracy
Discharge
Fixed Discharge
Always selected
951i,952i,956i : Nominal loading 7MΩ
9535i : Nominal loading 13MΩ
957i : Nominal loading 17MΩ
Controlled Discharge
Autoselected resistance values in realtime during discharge
Selection Criteria : 951i,952i,956i : Nominal loading 9.5KΩ or 40KΩ
9534i and 957i : Nominal loading 9.5KΩ or 40KΩ or 240KΩ
955i : Nominal loading 15KΩ or 40KΩ or 240KΩ
Minimum Discharge Time
<(20ms + 10ms per kV) (below 7500V)
PULSED VOLTAGE WITHSTAND TESTING (PULSE)
Test Voltage and Loading Capability
Test Voltage
9514i (standard build): 50V to 8000V
9514i (opt. AC2): 20V to 2750V
Output Impedance
9514i (standard build): 12Kohm + 0.5H nominal output impedance
9514i (opt. AC2): 1.4Kohm + 0.2H nominal output impedance
Max Load Current
Limited by the lesser of –
a) the test voltage and output impedance
b) 145mA (288mA for Opt. AC2).
Measured Test Voltage Accuracy
Test Voltage Accuracy
<(± 0.5% ± 5V ± (0.2V per mA load))
Load Current Measurements
Measurements are performed in the RETURN terminal of the 95x.
Breakdown Current
1uA to 280mApk (DC50kHz bandwidth)
<(± 1% ± 1uA) accuracy
Arc Current
1 to 30mArms (50KHz5MHz bandwidth)
<(± 10% ± 1mA) accuracy at 1MHz
4us, 10us, 15us, 20us, 30us or 40us measurement period
Test Timing
The ramp and dwell times are those specified ± 100us
DC BREAKDOWN VOLTAGE DEVICE TESTING (BRKDN)
Specifications are as for the DC Voltage Withstand Test types except as shown below.
The BRKDN type must not be used with loads having >0.05uF capacitance.
Voltage and Current Accuracy
Breakdown Voltage Accuracy
<(± 0.5% ± 1.5V)
Breakdown Current Accuracy
<(± 1.5% ± 3uA)
Test Timing
Ramp and Search <50kV/sec , ± 15% ± 10ms accuracy
DC LOW RESISTANCE TESTING (LOWΩ)
Test Current Source
Test Current
55mAdc max
Opt. LRE10 : 10mAdc max
Open Circuit Voltage
5V (nominal)
Source Resistance
130Ω (nominal)
Opt. LRE10 : 530 Ω (nominal)
Measurement Accuracy (2Wire)
Measurement Period
7.25msec measurement period (100ms for test time >2 sec)
Accuracy
<30KΩ : 0.8% + 0.02Ω
30100KΩ : 1.5%
100150KΩ : 5%
Opt. LRE10 : add 0.001Ω
Using rear terminals (option RPO only) : add 0.3Ω
Lead Compensation
<(±1% of error ± 0.005Ω)
Measurement Accuracy (4Wire)
Measurement Period
7.25msec measurement period (100ms for test time >2 sec)
Accuracy <30KΩ : 0.8% + 0.002Ω
30100KΩ : 1.5%
100150KΩ : 5%
Opt. LRE10 : add 0.001Ω
Lead Compensation
<(±1% of error ± 0.001Ω)
4wire Compensation
SOURCE <(±1% total lead impedance, 100Ω max)
SENSE <(±0.1% total lead impedance, 100Ω max)
Test Timing
Test Time
0.02 to 9999sec or user terminated
<(0.05% + 20ms) accuracy (add 100ms for test time >2 sec)
Delay
0.00 to 9999sec
<(0.05% + 20ms) accuracy (add 100ms for test time >2 sec)
AC GROUND BOND TESTING (GBEZ AND GB)
Test Current Source
The following apply at the SOURCE terminals.
Test Current Range
0.100 to 40.000Arms
Test Current Accuracy
<(±0.5% ± 0.005A ± 0.005% per Hz above 100Hz) accuracy
Test Current Overshoot
<10% ( <5% ( <2% (>0.5s ramp time)
Settling to <±0.5% of final value in
Test Frequency
40Hz to 500Hz
<0.1% accuracy
Test Waveform Sinewave, 1.3 – 1.5 Crest Factor
Compliance
(8Vrms – 0.015V/A) max compliance at test frequencies <75Hz.
For line voltages below 115V linearly reduce the maximum compliance by 1%/V unless Opt. LOLINE is fitted (there is no reduction for Opt. LOLINE).
Loading
10ohm max impedance (any phase, within compliance limits)
250W maximum load power
Voltage Measurements
The following apply at the SENSE terminals.
Range
0uV to 8.0000Vrms (RMS, Inphase and quadrature)
Accuracy
<(±0.5% ± 30uV ± 0.5uV*A) accuracy
(add 0.005% + 0.05uV*A per Hz above 100Hz)
<±0.005° per Hz phase relative to test current
Cable Compensation
<(1% of error)
Impedance Measurements
Accuracy
Add Test Current and Voltage Accuracies as percentages
Examples at 50 or 60Hz –
0.1ohm at 1A : 1% + 0.53% = 1.53%
0.1ohm at 10A : 0.55% + 0.5% = 1.05%
0.1ohm at 40A : 0.51% + 0.5% = 1.01%
0.01ohm at 1A : 1% + 0.8% = 1.8%
0.01ohm at 10A : 0.55% + 0.53% = 1.08%
0.01ohm at 40A : 0.51% + 0.51% = 1.02%
0ohm at 1A : 30.5uohm
0ohm at 10A : 3.5uohm
0ohm at 40A : 1.25uohm
Test Timing
Ramp
0.00 to 9999sec
<(± 1% ± 0.1sec ± 1 cycle) accuracy
Dwell
0.02 to 9999sec or user terminated
<(± 0.05% ± 20ms ± 1 cycle) accuracy
Fast Discharge
<(20ms + 1 cycle)
GROUND LEAKAGE TESTING (DCI AND ACI)
HV Voltage Measurements
DC Voltage Range
951i,952i,956i : 0.0 to +/8000V
953i,954i,955i : 0.0 to +/11000V
Option HSS : 0.0 to +/5000V
AC Voltage Range
9514i,956i : 0.0 to 6000Vrms
955i : 0.0 to 10000Vrms
Option HSS : 0.0 to 4000Vrms
DC Accuracy
<(± 0.25% ± 0.5V)
AC Accuracy
<(± 0.5% ± 0.5V ± 0.01% per Hz above 100Hz)
Input Impedance
Nominally 100MΩ
RETURN Current Measurements
Current Range
0.0nA to 200mA (DC or ACrms)
DC Current Accuracy
<(± 0.25% ± 0.5nA)
AC Current Accuracy
<(± 0.5% ± 20nA ± 0.005% per Hz above 100Hz)
Input Impedance
150uA : Nominally 37Ω
Arc Current
1 to 30mArms (50KHz5MHz bandwidth)
<(± 10% ± 1mA) accuracy at 1MHz
4us, 10us, 15us, 20us, 30us or 40us measurement period
Cable Compensation
<(± 1% of error)
Test Timing
Test
0.02 to 9999sec or user terminated
<(± 0.05% ± 100ms) accuracy
Delay
0.00 to 9999sec
<(± 0.05% ± 100ms) accuracy
AC30 Abbreviated Specifications
Loading Capability
10mArms (7mArms resistive) 250VA
Test Voltage Range
120 to 30000Vrms For line voltages below 115V linearly reduce the maximum test voltage by 1%/V
Test Voltage Accuracy
<(± 1.5% ± 5V ± (0.05% + 1V) per mArms load)
Test Frequency Range
40.0Hz to 80.0Hz (0.1Hz Resolution)
Dimensions
19” X 14¼” X 12½” (48¼ cm X 36 cm X 32 cm)
Weight
additional 36lb (17kg) net, 46lb (21kg) shipping
95x Series Hipot Tester Downloads
*At the end of your FREE 45 day trial of QT Enterprise software, you must purchase a Software License Key for the appropriate products the software is being used with. See ordering information or contact Vitrek for details at info@vitrek.com (858) 6892755.