- Pep Smart I/O User's Manual
Table Of Contents
- Preface.pdf
- Introduction.pdf
- Table of Contents
- General Information
- Weights & Measures
- 1.1 Product Overview
- 1.2 Ordering Information
- 1.3 Product Information
- 1.4 Installation
- 1.4.1 Overview
- 1.4.2 SMART I/O Module Installation
- 1.4.3 RJ45 Telephone Connector Installation
- 1.4.4 Screw Terminal Block Installation
- 1.4.5 Battery Installation
- 1.5 ISaGRAF-Installation
- 1.5.1 Before Installing
- 1.5.2 Installation of the ISaGRAF for Windows Workbench
- 1.5.3 Installation of PEP Library Functions
- 1.5.4 Demo Application
- Table of Contents
- SM-BASE.pdf
- Table of Contents
- 2. SMART-BASE
- 2.1 Specifications
- 2.2 Board Overview
- 2.3 Functional Description
- 2.4 Configuration
- 2.4.1 Jumper J1: Boot Selection (Pin Connector)
- 2.4.2 Jumper J6: LED Function (Pin Connector)
- 2.5 Pinouts
- 2.5.1 SMART Module Piggyback Connectors
- 2.5.2 Screw Terminal Pinouts
- 2.5.3 Timer I/O Screw Terminal (SCR1)
- 2.5.4 Supply Screw Terminals (SCR2)
- 2.5.5 RS232 Telephone Connector (BU1)
- 2.5.6 RS485 D-Sub Connector for Half-Duplex Operation (Profibus)
- 2.5.7 SPI Connector (ST7)
- 2.6 ‘C’ Programming
- 2.6.1 SMART-BASE Library
- 2.6.2 SMTselIn
- 2.6.3 SMTsettout
- 2.6.4 SMTpre
- 2.6.5 SMTstasto
- 2.6.6 SMTrd
- 2.6.7 SMTtin
- 2.6.8 SMTstat
- 2.6.9 SMTout
- 2.6.10 SMLed
- 2.6.11 SMwdon
- 2.6.12 SMwdtrig
- 2.6.13 SMwdoff
- 2.7 ISaGRAF Programming
- 2.7.1 The ISaGRAF Board Parameters
- 2.7.2 The ISaGRAF Operate Calls
- 2.8 Flash Utility
- Table of Contents
- SM-EXT.pdf
- Digital.pdf
- Table of Contents
- 4. Digital Modules
- 4.1 SM-DIN1
- 4.1.1 Introduction
- 4.1.2 Specifications
- 4.1.3 Front Panel Layout
- 4.1.4 Board Overview
- 4.1.5 Functional Description
- 4.1.6 Configuration
- 4.1.7 Pinouts
- 4.1.8 ‘C’ Programming
- 4.1.8.1 SM-DIN1 Library
- 4.1.8.2 SMDIN1Init
- 4.1.8.3 SMDIN1DeInit
- 4.1.8.4 SMDIN1Get
- 4.1.9 ISaGRAF Programming
- 4.1.9.1 The ISaGRAF Board Parameters
- 4.1.9.2 The ISaGRAF Operate Calls
- 4.2 SM-DOUT1
- 4.2.1 Introduction
- 4.2.2 Specifications
- 4.2.3 Front Panel Layout
- 4.2.4 Board Overview
- 4.2.5 Functional Description
- 4.2.6 Configuration
- 4.2.7 Pinouts
- 4.2.8 ‘C’ Programming
- 4.2.8.1 SM-DOUT1 Library
- 4.2.8.2 SMDOUT1Init
- 4.2.8.3 SMDOUT1DeInit
- 4.2.8.4 SMDOUT1Get
- 4.2.8.5 SMDOUT1Set
- 4.2.9 ISaGRAF Programming
- 4.2.9.1 The ISaGRAF Board Parameters
- 4.2.9.2 The ISaGRAF Operate Calls
- 4.3 SM-REL1
- 4.3.1 Introduction
- 4.3.2 Specifications
- 4.3.3 Front Panel Layout
- 4.3.4 Board Overview
- 4.3.5 Functional Description
- 4.3.6 Configuration
- 4.3.7 Pinouts
- 4.3.8 ‘C’ Programming
- 4.3.8.1 SM-REL1 Library
- 4.3.8.2 SMREL1Init
- 4.3.8.3 SMREL1DeInit
- 4.3.8.4 SMREL1Reset
- 4.3.8.5 SMREL1GetRly
- 4.3.8.6 SMREL1SetRly
- 4.3.8.7 SMREL1GetLed
- 4.3.8.8 SMREL1SetLed
- 4.3.8.9 SMREL1GetExtVcc
- 4.3.9 ISaGRAF Programming
- 4.3.9.1 The ISaGRAF Board Parameters
- 4.3.9.2 The ISaGRAF Operate Calls
- Table of Contents
- Analog.pdf
- Table of Contents
- 5. Analog Modules
- 5.1 SM-DAD1
- 5.1.1 Introduction
- 5.1.2 Specifications
- 5.1.3 Front Panel Layout
- 5.1.4 Board Overview
- 5.1.5 Functional Description
- 5.1.5.1 Input Circuitry
- 5.1.5.2 Output Circuitry
- 5.1.6 Configuration
- 5.1.7 Pinouts
- 5.1.8 ‘C’ Programming
- 5.1.8.1 SM-DAD1 Library
- 5.1.8.2 SMDAD1Init
- 5.1.8.3 SMDAD1DeInit
- 5.1.8.4 SMDAD1GetVRaw
- 5.1.8.5 SMDAD1GetV
- 5.1.8.6 SMDAD1PutVRaw
- 5.1.8.7 SMDAD1PutV
- 5.1.8.8 SMDAD1SetLed
- 5.1.8.9 SMDAD1ClrLed
- 5.1.9 ISaGRAF Programming
- 5.1.9.1 The ISaGRAF Board Parameters
- 5.1.9.2 The ISaGRAF Operate Calls
- 5.2 SM-PT100
- 5.2.1 Introduction
- 5.2.2 Specifications
- 5.2.3 Front Panel Layout
- 5.2.4 Board Overview
- 5.2.5 Functional Description
- 5.2.6 Configuration
- 5.2.7 Pinouts
- 5.2.8 ‘C’ Programming
- 5.2.8.1 SM-PT100 Library
- 5.2.8.2 SMADCInit
- 5.2.8.3 SMADCCalibrate
- 5.2.8.4 SMADCSetCyclicCalib
- 5.2.8.5 SMADCSetSensorType
- 5.2.8.6 SMADCGetSensorType
- 5.2.8.7 SMADCSetPrecision
- 5.2.8.8 SMADCGetPrecision
- 5.2.8.9 SMADCSetMode
- 5.2.8.10 SMADCGetMode 5-47
- 5.2.8.11 SMADCSetSignal
- 5.2.8.12 SMADCSetGain
- 5.2.8.13 SMADCGetGain
- 5.2.8.14 SMADCEnableRead
- 5.2.8.15 SMADCEnableConversion
- 5.2.8.16 SMADCReadRaw
- 5.2.8.17 SMADCReadConverted
- 5.2.8.18 SMADCDeinit
- 5.2.9 ISaGRAF Programming
- 5.2.9.1 The ISaGRAF Board Parameters
- 5.2.9.2 The ISaGRAF Operate Calls
- 5.3 SM-THERM
- 5.3.1 Introduction
- 5.3.2 Specifications
- 5.3.3 Front Panel Layout
- 5.3.4 Board Overview
- 5.3.5 Functional Description
- 5.3.6 Configuration
- 5.3.7 Pinouts
- 5.3.8 ‘C’ Programming
- 5.3.8.1 SM-THERM Library
- 5.3.8.2 SMADCInit
- 5.3.8.3 SMADCCalibrate
- 5.3.8.4 SMADCSetCyclicCalib
- 5.3.8.5 SMADCSetSensorType
- 5.3.8.6 SMADCGetSensorType
- 5.3.8.7 SMADCSetPrecision
- 5.3.8.8 SMADCGetPrecision
- 5.3.8.9 SMADCSetMode 5-75
- 5.3.8.10 SMADCGetMode
- 5.3.8.11 SMADCSetSignal
- 5.3.8.12 SMADCSetGain
- 5.3.8.13 SMADCGetGain
- 5.3.8.14 SMADCEnableRead
- 5.3.8.15 SMADCEnableConversion
- 5.3.8.16 SMADCReadRaw
- 5.3.8.17 SMADCReadConverted
- 5.3.8.18 SMADCDeinit
- 5.3.9 ISaGRAF Programming
- 5.3.9.1 The ISaGRAF Board Parameters
- 5.3.9.2 The ISaGRAF Operate Calls
- 5.4 SM-ADC1
- 5.4.1 Introduction
- 5.4.2 Specifications
- 5.4.3 Front Panel Layout
- 5.4.4 Board Overview
- 5.4.5 Functional Description
- 5.4.5.1 Input Circuitry
- 5.4.6 Configuration
- 5.4.7 Pinouts
- 5.4.8 ‘C’ Programming
- 5.4.8.1 SM-ADC1 Library
- 5.4.8.2 SMADC1Init
- 5.4.8.3 SMADC1GetVRaw
- 5.4.8.4 SMADC1GetV
- 5.4.8.5 SMADC1SetLed
- 5.4.8.6 SMADC1ClrLed
- 5.4.8.7 SMADC1DeInit
- 5.4.9 ISaGRAF Programming
- 5.4.9.1 The ISaGRAF Board Parameters
- 5.4.9.2 The ISaGRAF Operate Calls
- 5.5 SM-DAC1
- 5.5.1 Introduction
- 5.5.2 Specifications
- 5.5.3 Front Panel Layout
- 5.5.4 Board Overview
- 5.5.5 Functional Description
- 5.5.5.1 Output Circuitry
- 5.5.6 Configuration
- 5.5.7 Pinouts
- 5.5.8 ‘C’ Programming
- 5.5.8.1 SM-DAC1 Library
- 5.5.8.2 SMDAC1Init
- 5.5.8.3 SMDAC1OpenLoop
- 5.5.8.4 SMADAC1Operate
- 5.5.8.5 SMDAC1StandBy
- 5.5.8.6 SMDAC1PutVRaw
- 5.5.8.7 SMDAC1PutV
- 5.5.8.8 SMDAC1SetLed
- 5.5.8.9 SMDAC1ClrLed
- 5.5.8.10 SMDAC1DeInit
- 5.5.9 ISaGRAF Programming
- 5.5.9.1 The ISaGRAF Board Parameters
- 5.5.9.2 The ISaGRAF Operate Calls
- Table of Contents
- Comms.pdf
- Table of Contents
- 6. Communications Modules
- 6.1 SM-RS232 6
- 6.1.1 Introduction
- 6.1.2 Specifications
- 6.1.3 Front Panel Layout
- 6.1.4 Board Overview
- 6.1.5 Functional Description
- 6.1.6 Configuration
- 6.1.7 Pinouts
- 6.1.8 ISaGRAF Programming
- 6.1.8.1 The ISaGRAF Board Parameters
- 6.1.8.2 The ISaGRAF Operate Calls
- 6.1.9 OS-9 Programming
- 6.2 SM-SSI
- 6.2.1 Introduction
- 6.2.2 Specifications
- 6.2.3 Front Panel Layout
- 6.2.4 Board Overview
- 6.2.5 Functional Description
- 6.2.6 SSI Operation
- 6.2.7 Register Description
- 6.2.7.1 Control Register
- 6.2.7.2 CTRL1 Register
- 6.2.7.3 CTRL2 Register
- 6.2.7.4 CTRL3 Register
- 6.2.7.5 Compare Register
- 6.2.7.6 Identification Register
- 6.2.7.7 Status Register
- 6.2.7.8 STAT1 Register
- 6.2.7.9 STAT2 Register
- 6.2.7.10 Data Register
- 6.2.8 MATCH Function
- 6.2.9 Tested Sensors
- 6.2.10 Configuration
- 6.2.11 Pinouts
- 6.2.12 ‘C’ Programming
- 6.2.12.1 SM-SSI Library
- 6.2.12.2 SMSSIInit
- 6.2.12.3 SMSSIDeInit
- 6.2.12.4 SMSSISetSetPoint
- 6.2.12.5 SMSSISetCtrlReg
- 6.2.12.6 SMSSIGetStatus
- 6.2.12.7 SMSSIGetData
- 6.2.13 ISaGRAF Programming
- 6.2.13.1 The ISaGRAF Board Parameters
- Table of Contents
SMART I/O User’s Manual
©1996 PEP Modular Computers GmbHMarch 12, 1996 Page 5 - 25
5
Chapter 5 Analog Modules
5.1.9 ISaGRAF Programming
5.1.9.1 The ISaGRAF Board Parameters
Information on board parameters may be found in the PEP online help and
ISaGRAF online help or user’s manual.
Figure 5.1.9.1.1 Typical Screen Sections for the SM-DAD1 Module
Logical Address
The 4 inputs and 2 outputs of this module may be clearly seen together with
the logical address at which this particular board is residing. Remember, this
logical address is the same as the physical slot position! In the example
shown here, the board being addressed is in slot 2 i.e. the second of the
SMART-BASE slots. Up to 11 slots are catered for in the SMART I/O
concept; 3 on the SMART-BASE and 2 for each connected SMART-EXT
(up to a total of 4).
Module Specific Information
UNIPOLAR_bipolar : Like all I/O board parameters, the default is
set in upper-case lettering. Here, in this
example both outputs of the module are set to
function in bipolar mode. Hardware jumpers
J4 and J5 must be set accordingly as it is
impossible under ISaGRAF to configure the
outputs
i
nd
i
v
i
dua
ll
y.