Omega Speaker Systems PCI-DAS1001, PCI-DAS1002 manual  

Page 13

4.2.1 Common Ground / Single-Ended Inputs

Single-ended is the recommended configuration for common ground connections. However, if some of your inputs are common ground and some are not, we recommend you use the differential mode. There is no performance penalty (other than loss of channels) for using a differential input to measure a common ground signal source. However the reverse is not true. The diagram below shows a recommended connection diagram for a common ground / single-ended input system

 

l

 

ith

 

na

 

nd

Sig

ource

w

 

 

 

on

G

 

S

 

m

 

 

 

om

 

 

 

 

C

 

 

 

 

 

 

 

 

O ptional wire since signal source and A/D board share com m on ground

CH IN

LL G N D

I/O

C onnector

+

In p ut

 

To A /D

A m p

 

 

 

-

A /D Board

Signal source and A/D board sharing com m on ground connected to single-ended input.

4.2.2 Common Ground / Differential Inputs

The use of differential inputs to monitor a signal source with a common ground is a acceptable configuration though it requires more wiring and offers fewer channels than selecting a single-ended configuration. The diagram below shows the recommended connections in this configuration.

nal

 

ith

 

 

Sig

 

e

w

 

 

nd

 

 

ourc

 

 

on

G

 

 

S

om

m

 

 

 

 

 

 

 

 

 

C

 

 

 





 

 

 

 

 

 

 

 

 

 

 

 

 

CH High

 

 

 

 

 

 

 

CH Low

 

 

Optional wire

LL GND

 

 

since signal source

 

 

 

and A/D board share

 

 

 

com mon ground

I/O

 

 

 

 

 

 

 

C onn ector

 

 

 

 

 

 

 

Required connection

 

 

 

 

 

 

 

of LL G ND to CH Low

+

Inp ut

 

To A /D

A m p

 

 

 

-

A /D Board

S ignal source and A/D board sharing com m on ground connected to differential input.

4.2.3 Common Mode Voltage < +/-10V / Single-Ended Inputs

This is not a recommended configuration. In fact, the phrase common mode has no meaning in a single-ended system and this case would be better described as a system with offset grounds. Anyway, you are welcome to try this configuration, no system damage should occur and depending on the overall accuracy you require, you may receive acceptable results.

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Contents Users Guide Table of Contents BADR2 BADR0 BADR1BADR3 BADR4Introduction Introduction InstallationDOS and/or Windows RUN InstaCalHardware Connections Connector PIN DiagramSingle-Ended and Differential Inputs Analog ConnectionsSingle-Ended Inputs Differential Inputs Differential InputWhich system do you have? System Grounds and IsolationSmall Common Mode Voltages Systems with Common Mode ground offset VoltagesLarge Common Mode Voltages Ground Category Input Configuration Our view PCI-DAS1000 and signal source already have isolated grounds    Board Board Programming & Software Applications Analog Inputs SELF-CALIBRATION of the PCI-DAS1000Analog Outputs BADR1 BADR0Interrupt / ADC Fifo Register Region Function OperationsEoaie InteIntcl AdflclCHL8-CHL1, CHH8-CHH1 ADC Channel MUX and Control Register BADR1 +Pacer Source EOC= ADC Done = ADC Busy TS10 Trigger CONTROL/STATUS Register BADR1 +ARM C0SRC Fifo Mode Sample CTRXtrig IndxgtBADR1 + Calibration RegisterDAC Channel Cal Function Cal SourceDAC CONTROL/STATUS Register BADR1 + Dacen ModeDACnR10 DACnR1 DACnR0 Range LSB SizeADC Data Register BADR2 + BADR2ADC Fifo Clear Register BADR2 + MSB LSBADC Pacer Clock Data and Control Registers BADR3BADR3 + Device Counter # FunctionDigital I/O Data and Control Registers ADC 8254 Control RegisterDIO Port a Data DIO Port B DataDIO Control Register DIO Port C DataPort a Port C Port B Upper Lower OUT 8254B Counter 1 Data User Counter #5 Index and User Counter 4 Data and Control Registers8254B Counter 2 Data User Counter #6 BADR3 + AhBADR3 + Bh 8254B Control Register1 DAC0 Data Register BADR4BADR4 + 2 DAC1 Data RegisterElectrical Specifications Analog Output Environmental Power consumptionEC Declaration of Conformity
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