High-gain amplifier configurations – Measurement Computing WaveBook rev.3.0 User Manual

WaveBook User’s Manual,

ch03C 6-21-99

WBK Expansion Options, WBK16 3-31

High-Gain Amplifier Configurations
WBK16 is also useful as a programmable high-gain amplifier. No external bridge is used in these cases.
The inputs are fully differential.

Note: The differential inputs are not isolated inputs. Common mode voltage should not exceed

±10 V.

Universal High-Gain Amplifier Input, Differential

IA

Internal Bridge Completion

RA

RB

RC

RD

RE

RF

RG

RH

1

2

3

-Sense

+Sense
+Excitation

-Excitation

JN01

Switches

accessed

through

software

External
Bridge

DB-9

Input

+

-

1

8

9

7

5

4

3

6

2

No pull-down resistors are required if the
input signal ground is connected to Pin 1
as shown.

Universal High-Gain Amplifier Input, Differential with Pull Downs

IA

Internal Bridge Completion

RA

RB

RC

RD

RE

RF

RG

RH

1

2

3

-Sense

+Sense
+Excitation

-Excitation

JN01

Switches

accessed

through

software

External

Bridge

DB-9
Input

+

-

1

8

9

7

5

4

3

6

2

A floating input without a ground
reference, such as a battery, requires a
path for input bias currents. Pull-down
resistors of 1k to 10M

Ω may be installed

as shown to provide this function.
A 10M

Ω resistor would be suitable in

most cases. These resistors are not
compatible with other bridge
configurations.

Universal High-Gain Amplifier Input, Single-Ended

IA

Internal Bridge Completion

RA

RB

RC

RD

RE

RF

RG

RH

1

2

3

-Sense

+Sense
+Excitation

-Excitation

JN01

Switches

accessed

through

software

External
Bridge

DB-9

Input

+

1

8

9

7

5

4

3

6

2

If the (-) input is ground referenced, the
input is non-differential and pull-down
resistors are not required. A floating
source would still result in a truly
differential input.