601-342a - jt 5510 jt 5550 user manual english · c output (to eut) a negative pulses b1, b2, e and...
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JT 5510 & JT 5550USER MANUAL 601-342A
JT 5510 & JT 5550
JT 5510 & JT 5550USER MANUAL 601-342A
1 Introduction 42 Specification 63 TransientDiagram 74 Installation/Set-up 84.1 Test set-up 94.2 Parameter references 105 Adresses 12
CONTENTS
4
JT 5510 & JT 5550
The JT 5510 and JT 5550 are plug-in transient generator modules designed for use with the NSG 5500 mainframe system. This generator is designed to meet the specifi cation requirements for the JASO D-001-94 standard for pulses A1, A2, B1, B2, D1, D2, E and similar.
The JT 5510 and JT 5550 utilize the exclusive Teseq Gemini features for ultimate fl exibility of your NSG 5500 system.
When operating with a battery or battery simulator connected to the NSG 5500 mainframe, the NSG 5500 Battery Switch Module should also be mounted in the rear of the NSG 5500 chassis. For best results, these modules should be installed in the main NSG 5500 chassis with no expansion chassis. This module provides the necessary switching on and off of the battery voltage as specifi ed in the standard. Alternatively, for greater than 25 A of battery current, the main EUT Output may be used.
When slotted into an NSG 5500 mainframe the transient generators are fully programmable either via RS232 or IEEE 488 interface. Parameters such as ampli-tude, and pulse repetition may be programmed per the user’s needs.
The JT 5510 and JT 5550 are designed using state of the art semi-conductor tech-nology. This means repeatable performance and maintenance free operation. It also means that test results can be repeated with a high degree of accuracy.
The output pulses of the generator are available on two power banana sockets on the front of each module.
The JT 5510 and JT 5550 contain the proper selection of different internal output resistances.
1 INTRODUCTION
5The AutoStar software program, available from Teseq, is a Windows based graphical program that allows full control of all programmable features via an intuitive graphical windows front panel.
Table below details the minimum system requirements for use with the JASO modules.
SystemRequirement Min.VersionNo.NSG 5500 AutoStar 5.0
General“Gemini”TransientModuleOverview
Powerbusoutput
(Disabled)
ErrorIndicator
Flasheswhenunit
isaddressed
IndicatesPowerON
PositivePulsesIndicator
NegativePulsesIndicator
FlasheswhenPulse
isgenerated
6
JT 5510 & JT 5550
AvailablePulses
JT 5550
Pulse Amplitude Impedance RiseTime Duration* Repetition
A1 20 – 70 V 0.8 Ohms <1 us 200 ms (τ) 30 – 120 s
D1 20 – 120 V 1.5 Ohms <1 us 400 ms (τ) 30 – 120 s
JT 5510
Pulse Amplitude Impedance RiseTime Duration* Repetition
A2 20 – 110 V 0.4 Ohms <1 us 2.5 us (τ) 1 – 120 s
D2 20 – 170 V 0.9 Ohms <1 us 2.5 us (τ) 1 – 120 s
B1 20 – 80 V 8 Ohms <1 us 60 ms (τ) 6 – 120 s
B2 20 – 260 V 80 Ohms <1 us 2 ms (τ) 6 – 120 s
E 20 – 320 V 210 Ohms <1 us 26 ms (τ) 30 – 120 s
NissanB1 20 – 80 V 20 Ohms <1 us 46 ms (td) 3 – 120 s
NissanB2 20 – 300 V 75 Ohms <1 us 7.6 ms (td) 3 – 120 s
*JASO D 001-94 Specifi es the Pulse Width at τ while AutoStar uses the ISO defi nitions of td (td = 2.3*τ).
SpecificationsJT5510&JT5550
Parameter Conditions Min Max Unit Tol
Amplitude
Resolution
Various See above for options Volt +10%
-0%
Ri Various See above for options Ohms +/- 10%
Rise time, tr All JASO
Pulses
1 μS
Battery Options OFF On
2 SPECIFICATIONS
73 TRANSIENT DIAGRAM
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3 Transient Diagram
Positive Pulses A1, D1, A2, D2 and Nissan B1
Negative Pulses B1, B2, E and Nissan B2
Bat
tery
Inpu
t
Out
put (
To E
UT)
Cw Rw CR
RR RiK1
HVPSU
UA
0UA
0
Bat
tery
Inpu
t
Out
put (
To E
UT)
Cw Rw CR
RR RiK1
HVPSU
UA
0
1-6
3 Transient Diagram
Positive Pulses A1, D1, A2, D2 and Nissan B1
Negative Pulses B1, B2, E and Nissan B2
Bat
tery
Inpu
t
Out
put (
To E
UT)
Cw Rw CR
RR RiK1
HVPSU
UA
0UA
0
Bat
tery
Inpu
t
Out
put (
To E
UT)
Cw Rw CR
RR RiK1
HVPSU
UA
0PositivePulsesA1,D1,A2,D2andNissanB1
NegativePulsesB1,B2,EandNissanB2
8
JT 5510 & JT 5550
Check the instrument for any mechanical damage. Report any damage found to the carrier immediately.
Ensure that the power is turned off on the NSG 5500 mainframe and that the battery input is disconnected. Insert JT 5510 cassette in the left slot and the JT 5550 in the right slot and push in fully. Screw in the four retaining screws fully.
It is vitally important that the unit mains power is connected to protective earth.
Turn on the mains input power on the NSG 5500 mainframe. After approximately a two second delay the power LED (red) on the JT 5510 or JT 5550 generator should light. After a further two-second initialisation period, the unit is ready for operation.
The scope test set-up shown in 4.1 should be connected and the output pulses should be quickly checked to ensure that they are of the correct form and shape. As pulses are generated ‘Fire’ LED should light briefly.
When the battery voltage and correct operation has been verified, the DUT can be connected to the OUTPUT terminals at the front of the unit, and the required tests can be carried out.
4 INSTALLATION/SET-UP
9
DuetothefastrisetimesandsometimeshighRioftheJASOpulses, it isstronglyrecommendedtoconnectdirectly to the OUTPUT connector of the applicablemodulefortestingandpulseverification.
4.1Testset-upThe following set-up may be used to check the integrity of the output pulses. The scope probe should allow measurement of pulse voltages of up to 600 V peak, input impedance of >10 kΩ at a frequency of >2 MHz. Note: it is very important to compensate the probe in advance. Because of the exponential shape of the transients, an uncompensated probe will cause errors on rise time and voltage measurement, and an incorrect pulse shape.
2
1
Groundplane
JTModule
Output
OscilloscopeHighimpedance
OscilloscopeProbe
10
JT 5510 & JT 5550
4.2ParameterreferencesThe following diagrams show the reference points that are used for parameter specifications on the JT 5510 and JT 5550.
1-9
4.2 Parameter references The following diagrams show the reference points that are used for parameter specifications on the NSG5054 and NSG 5055.
Load Dump
Negative Pulses
V P
UA
V
36.8%
0V
2.3* =td
US
UA
0
t3
t2
t1
V
t
2.3* =td
td
90%
10%
1-9
4.2 Parameter references The following diagrams show the reference points that are used for parameter specifications on the NSG5054 and NSG 5055.
Load Dump
Negative Pulses
V P
UA
V
36.8%
0V
2.3* =td
US
UA
0
t3
t2
t1
V
t
2.3* =td
td
90%
10%
LoadDump
NegativePulses
11
PositivePulses
1-10
Positive Pulses
US
UA
0V
t1
10%
90%
td
tr
2.3* =td
To find your local partner within Teseq®’s global network, please go to www.teseq.com
© February 2015 Teseq® Specifications subject to change without notice. Teseq®, a unit of AMETEK Compliance Test Solutions, is an ISO-registered company. Its products are designed and manufactured under the strict quality and environmental require-ments of the ISO 9001. This document has been carefully checked. However, Teseq® does not assume any liability for errors or inaccuracies.
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