2 bi-polar voltage amplifiers – Cooper Instruments & Systems DFI 1650 Multi-Channel Digital Force Indicator User Manual

CF 66

46

Rev. C 2/05

The analog-to-digital converter input circuit features adjustable digital, low-pass filtering, 12- to 18-bit resolution
(depending on the filter setting) and has several different input ranges. These many ranges allow ±50,000 count
resolution (at the slowest filter setting) across a wide variety of input ranges.

A combination of SETUP menu items and hardware jumpers are used to configure the excitation supply out put
voltage (+28 VDC, ±15 VDC, +15 VDC or +12 VDC), the input type (voltage or current) and input reference
(differential or single ended).

Two methods of calibrating the High-Level Input channel to the transducer are available: known-load calibration
and shunt calibration. The benefits of each are discussed in “CALIBRATON TYPE menu Item” in Chapter 12.

Two rear panel control inputs can be field-configured for such functions s remote tare, disabling peak/valley
detection and clearing the peak/valley values. A voltage or current digital-to-analog output is also provided.

12.2 Wiring

12.2.1 Channel Connector

Connect the amplified transducer, in-line amplifier or DC-DC LVDT to a High-Level Input channel by wiring it to the
12-pin connector of that channel. The System Calibration Sheet that shipped with the instrument describes which
cards are installed in each channel. The pin-out for this connector is shown on the following table.

Table 12-1: High-Level Input Channel Pin Connections

Pin Label

Function

Reference

Pin

1 (top)

+EXC

(+) Excitation

10

2

SHUNT 1

Shunt Cal Relay

3

3

-SHUNT 2

Shunt Cal Relay

2

4 -EXC

(-)

Excitation

10

5 +SIG

(+)

Signal

10

6 -SIG

(-)

Signal

10

7 +OUT

Analog

Output

8

8 -OUT

Analog

Return

-

9 N/C

No

connection

-

10 DGND

Digital

Ground

-

11 AUX1

Auxiliary Function 1

(connect to pin 10 to activate)

10

12 (bottom)

AUX2

Auxiliary Function 2

(connect to pin 10 to activate)

10

The Analog Output and Analog Return pins are electrically isolated from all other pins on the instrument.

12.2.2 Bi-polar Voltage Amplifiers

Use the following wiring diagram when connecting an amplified transducer, in0line amplifier or DC-DC LVDT with a
bi-polar voltage amplifier to a High-Level Input channel. Examples of such devices include:

• transducers with Option 2a or Option 2b internal amplifiers (with shunt cal)

• Models UBP or UBP-10 Universal In0Line amplifiers (with shunt cal)

• Models MDL, DLA, MDLC, DW7U and DW7S DC-DC LVDTs (no shunt cal)

See “Low Voltage DC-DC LVDTs” for information on wiring Model DLB, DLE and DLF low-voltage DC-DC LVDTs.

The High-Level Input channel’s Configuration Jumpers must be set as follows for proper operation. See “Excitation
and Signal Jumpers”.

• (+)Excitation supply: “+15 VDC”

• (-)Excitation supply: “-15 VDC”

• Signal type: “voltage”

• Signal reference: “single ended”