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E4371A, E4370A, E4374A manual
Models:
E4374A
E4371A
E4370A
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Specs
Table A-2. Agilent E4370A/E4374A MCCD Characteristics
Install
Error codes
1. Block Diagram of Agilent MCCD System
Warranty
Dimension
Configuration
Voltage Drops and Wire Resistance
cfReset
Page 22
Image 22
Page 21
Page 23
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Image 22
Page 21
Page 23
Contents
USER’S GUIDE
Multi-Cell Charger/Discharger
Agilent Model E4370A Powerbus Load Agilent Model E4371A
64-Channel Charger/Discharger Agilent Model E4374A
LIMITATION OF WARRANTY
Warranty Information
WARRANTY
CERTIFICATION
GENERAL
Safety Summary
BEFORE APPLYING POWER
ENVIRONMENTAL CONDITIONS
Document Scope
Safety Symbols
2 - INSTALLATION
Table of Contents
1 - GENERAL INFORMATION
5 - PROGRAMMING OVERVIEW
3 - CONFIGURATION
4 - AGILENT MCCD USER INTERFACE
6 - LANGUAGE DICTIONARY
cfGetOutputConfig
cfGetDigitalConfig
cfGetMeasLogInterval
cfGetSerialConfig
7 - C PROGRAM EXAMPLES
Agilent MCCD System Capabilities
General Information
Figure 1-1. Block Diagram of Agilent MCCD System
Basic Functions
Additional Features
Hardware Description
Agilent E4370A/E4374A MCCD
General Information
LINE SYSTEM Power Ready
External Internal 1, 2, 3 Ready Fault
Active
Agilent E4371A Powerbus Load
Figure 1-3. Agilent E4370A/E4374A MCCD Rear Panel Connections
Figure 1-4. Agilent E4371A Powerbus Load Front Panel
External Power Source
Figure 1-5. Agilent E4371A Powerbus Load Rear Panel
Multiple Agilent MCCD Configuration
Figure 1-6. Maximum System Block Diagram
Voltage Measurements
Measurement Capability
Current Measurements
Capacity Measurements
Cell Resistance
Probe Resistance
Data Logging
Change in current ΔI Change in time Δt
Protection Features
Internal Protection Functions
External Digital I/O Protection Functions
If AC Power Fails
Remote Programming Interface
External Fault Input
Example of a Cell Forming Process
Web Accessible Agilent MCCD User Interface
Application Programming Interface API
The control PC then polls the digital I/O lines for the Start button
Page
Inspection
Installation
Parts and Accessories
Table 2-2. Accessories
Description
Table 2-2. Accessories continued
Manufacturer’s Part
Number
Agilent E4370A MCCD Mainframe
Location
Channel Connections
Agilent E4371A Powerbus Load
Connector Number
Voltage Drops and Wire Resistance
Table 2-4. Channel Configuration
Card Number
Remote Sense Connections
Table 2-5. Resistance of Stranded Copper Conductors
Discrete terminated wires
Power Bus Connections
Power Bus Wiring Information
Bus bars
AWG No
Figure 2-1. Typical Power Bus Configurations
Table 2-6. Ampacity and Resistance of Stranded Copper Conductors
Area in mm2
Charging Mode Guidelines
Max powerin = Maxpowerbuscurrent Powersourcevoltage
Discharging Mode Guidelines
Max powerout
Digital Connections
General Purpose I/O
= Maxpowerbuscurrent
Special Functions
Wiring Guidelines
Figure 2-2. Digital I/O Connections
C. Isolated Output
Figure 2-3. Equivalent Digital I/O Circuits
A. Digital Input
B. Digital Output
Figure 2-4. Typical Hardware Connections
RS-232 Connections
Configuration
Initial
Figure 2-5. RS-232 A and B Connectors
Auxiliary Output Connection
Figure 2-6. Null-modem Cable Connections
Lets you update the Agilent MCCD firmware from a Windows 95 or
Installing the API Library and Measurement Log Utility
Visual C++ Configuration
Windows NT client PC
1. Configure the HyperTerminal program
Configuration
Configuring the LAN
Programs Accessories Hyperterminal HyperTerminal
2. Connect the Agilent E4370A MCCD to the COM port on the PC
3. Fill Out the Agilent MCCD Configuration Screens
Properties box
Network Configuration
Configuration
Identification Configuration
Identification000.000
Configuring the Digital I/O
Miscellaneous Configuration
To continue configuring the Digital I/O, press 3. The pin numbers of the Digital I/O connector appear on the screen. Refer to Figure 2-2 for the physical locations of the pins. Note that the two pins on each end of the connector are the Common connection for any pins that are configured as grounded outputs
All pins do not have to be configured in the same way. Some can be used as isolated outputs while others are single-ended I/O. Functions can also be mixed, with some pins being general purpose Digital I/O while others have a specific purpose. Chapter 2 under “Digital Connections” provides further information about the purpose and application of the digital I/O signals. Any pin can be configured for selections 1 through 7. The common ground pin is the return for these selections
Accessing Calibration
Mixed Configuration Example
Description
Browser Settings
Agilent MCCD User Interface
PC Requirements
Access
Using the Interface
Localization
Using the Agilent MCCD Measurement Log Utility
Transfers all of the logged data in the order that it was logged
Programming Overview
A Cell Forming Overview
Function
Cell Forming Example
Figure 5-1. Test Outcome Flowchart
Step
Step
Programming Overview
Step
Step
Figure 5-2. Simple Cell Forming Example
5 - Programming Overview
ST N
Function Call Overview
Cell Grouping
Grouping Functions
Step/Test Functions
Sequence Control
Figure 5-3. Instrument Run State
Output Configuration
Instrument Protection
Figure 5-4. Instrument Protect States
Power Fail Operation
Instrument State Storage
Status
Measurement Log
Time Stamp Function
Output Measurements
Direct output control
General Server functions
cfSelftest
Selftest
Calibration
cfReadTestLog
Serial port
Digital port
Probe check
Page
Error Reporting
Language Dictionary
API Usage Guidelines
Operating System and Language Support
Password Protection
API Function Summary
6 - Language Dictionary
Language Dictionary
cfCal
API Function Definitions
cfAbort
cfCalStandard
cfDeleteGroup
cfCalTransfer
cfClose
Syntax
cfGetCurrent
cfGetCellStatus
cfGetCellStatusString
Syntax
cfGetGroups
cfGetDigitalConfig
cfGetDigitalPort
See Also
Example
cfGetInstIdentify
cfGetInstStatus
Syntax
cfGetOutputProbeTest
cfGetMeasLogInterval
cfGetOutputConfig
Syntax
cfGetSense
cfGetOutputState
cfGetRunState
Syntax
cfGetSeqTest
cfGetSenseProbeTest
cfGetSeqStep
Syntax
cfGetSeqTime
cfGetSerialConfig
cfGetSeqTestAnd
cfGetSerialStatus
cfGetStepNumber
cfGetShutdownDelay
cfGetShutdownMode
cfGetTrigSource
cfMeasACResistance
cfGetVoltage
cfInitiate
cfMeasCapacityAS
cfMeasDCResistance
cfMeasCapacityWS
cfMeasCurrent
cfMeasOutputProbeResistance
Syntax
cfMeasProbeContinuity
cfMeasSenseProbeResistance
Description
cfOpenGroup
cfMeasVoltage
cfOpen
Syntax
cfReadMeasLog
cfProtect
cfProtectClear
Example
step number CFALLSTEPS
returns entries for that step number returns entries for all steps
Description
cfReadSerial
Syntax
See Also
cfReadTestLog
cfReset
cfResetSeq
Syntax
cfSelftest
cfSaveOutputConfig
cfRestart
Syntax
Syntax
cfSetAutoConnect
cfSetCurrent
Description
Description
cfSetDigitalConfig
Syntax
CFGROUNDED Operation
See Also
CFISOLATED Operation
Syntax
cfSetErrorFunction
cfSetDigitalPort
Description
cfSetGroup
cfSetMeasLogInterval
cfSetOutputConfig
Syntax
Syntax
cfSetOutputProbeTest
cfSetOutputState
Description
cfSetSeqStep
cfSetSense
cfSetSenseProbeTest
Syntax
cfReset, cfSetSeqTest, cfGetSeqStep
See Also
Description
cfSetSeqTest
Syntax
Language Dictionary
timetesttype is one of
cfSetSeqTestAnd
cfSetSerialConfig
cfSetServerTimeout
Syntax
cfSetShutdownMode
cfSetShutdownDelay
cfSetTimeout
cfSetTrigSource
cfStateDelete
cfSetVoltage
cfShutdown
Syntax
cfStateSave
cfStateList
cfStateRecall
cfTrigger
Description
cfWriteSerial
Syntax
See Also
Page
C Program Examples
Example
7 - C Program Examples
Example
C Program Examples
7 - C Program Examples
Main function
C Program Examples
7 - C Program Examples
C Program Examples
Turn off the TEST light and turn on the READY light
Example
You can control up to 16 Agilent MCCDs from one PC and still achieve good system responsiveness, depending on the application program structure
C Program Examples
7 - C Program Examples
Error handler function
void ErrorHandlerCFHANDLE server, char *name, int error
Return a timestamp string
Hardware Specifications
Specifications
Table A-1. Agilent E4370A/E4374A MCCD Specifications
A - Specifications
Table A-2. Agilent E4370A/E4374A MCCD Characteristics
Table A-3. Agilent E4371A Powerbus Load Characteristics
Specifications - A
Table A-2. Agilent E4370A/E4374A MCCD Characteristics continued
Table A-4. Requirements for External Power Bus Source
Page
Full Calibration
Calibration
Calibration Types
Calibration Interval
Calibration Connections
Transfer Calibration
Mainframe Reference Calibration
Table B-1. Calibration Equipment Required
232CV
Calibration - B
IBGP
Figure B-1. Calibration Connections
Accessing Calibration
Agilent MCCD Configuration Screens
API Calls over the LAN
Calibration Error Messages
Rear panel transfer calibration switch
Web-based Graphical User Interface
Page
Dimension Drawings
C - Dimension Drawings
Figure C-2. Agilent Powerbus Load Simplified Outline Diagram
Connector Number
Sense and Power Connector Pinouts
Card Number
Figure D-1. Card 1 Sense and Power Connector Cell Assignments
D - Sense and Power Connector Pinouts
Figure D-2. Card 2 Sense and Power Connector Cell Assignments
Figure D-3. Card 3 Sense and Power Connector Cell Assignments
Sense and Power Connector Pinouts - D
Figure D-4. Card 4 Sense and Power Connector Cell Assignments
D - Sense and Power Connector Pinouts
Table D-1. Card 1 Sense and Power Pinout Assignments
Sense and Power Connector Pinouts - D
Table D-2. Card 2 Sense and Power Pinout Assignments
D - Sense and Power Connector Pinouts
Table D-3. Card 3 Sense and Power Pinout Assignments
Sense and Power Connector Pinouts - D
Table D-4. Card 4 Sense and Power Pinout Assignments
Page
Introduction
In Case of Trouble
Table E-1. Fault Indicators
Selftest Error Messages
E - In Case of Trouble
Index
Index
Index
Index
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Australia/New Zealand