950L8B Datasheet, PDF(5/9 Page) Frequency Devices, Inc.

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950L8B Datasheet, PDF (5/9 Pages) Frequency Devices, Inc. – Tunable Filter Instruments

◁

Model 950

Initial Setup

Select desired operating voltage 115 Vac

or 230 Vac. See note "N" page four.

Set the POWER ON/OFF Switch to ON.

A continuously lit POWER lamp indicates

power applied. Allow the instrument a

three-minute warm-up period to achieve

thermal equilibrium.

To perform initial adjustment and/or

operational testing, set the remaining

front panel controls as follows:

a) The CORNER FREQUENCY switch

and the MULTIPLIER to the desired

corner frequency.

b) The OFFSET control to approximately

mid-range.

c) The GAIN switch to the desired value.

e) The INPUT switch to ground (GND).

Connect a dc-coupled oscilloscope, of

vertical sensitivity 10mV/CM or better, or

a digital voltmeter (DVM) to the

instrument front panel BNC connector

labeled OUT.

Operation and

Application Guide Lines

Set the OFFSET control for a zero-volt

reading on the scope.

Subsequent changes of CORNER

FREQUENCY and GAIN control settings

will introduce a small dc output offset,

which should be zeroed for critical

applications.

Leaving all other controls unchanged,

set the Input Switch to (A-B) and apply a

5Vdc signal simultaneously to input

BNCs (A) and (B). The voltage

measured at the OUT BNC should be 5-

5=OVdc. This completes preliminary

test and adjustment.

The Differential Input

The instrument utilizes a differential input

amplifier to reject prevalent forms of

electrical interference, while presenting

desirable input characteristics to the

signal source requiring filtering. The

differential input configuration is ideal for

measuring the difference between two

values rather than the values

themselves. Bridge circuits utilizing

strain gages, thermocouples and a

variety of other types of transducers

generate differential full-scale output

voltages in the order of millivolts that are

often superimposed upon volt-level

reference and noise values.

Corner Frequency Selection

To select a corner frequency, simply set

the CORNER FREQUENCY switch and

the MULTIPLIER switch for the desired

numerical value.

The importance of CMRR

In actual system environments, each

signal and power return conductor can

generate an interference voltage

proportional to the net conductor

resistance and the electrical current

level. Any such interference voltages

appear as common mode signals to the

amplifier, and are rejected as such.

Circuit model illustrating relationship between filter's differential input

amplifier and external signal and error sources.

INPUT SIGNAL AND

NOISE VOLTAGE SOURCES

RSA

VCM

SIGNAL

COMMON

RSB

COUPLED

POWER LINE

NOISE VOLTAGE

(+)

(Â±)

0dB

10dB

20dB

RCM+

RCM-

DIFF

AMP

DIFFERENTIAL

INPUT AMPLIFIER

GAIN = K

OUTPUT

AMPLIFER

OUT

Â±Vs

(Â±)

COM

+Vs

Vo = K(VA - VB) + Vcm/CMRR : WHERE

K = 1, 10 AND 10 FOR GAIN SETTINGS

OF 0, 10 AND 20dB RESPECTIVELY.

SEE TEXT FOR REMAINING TERMS.

(+)

* DENOTES FRONT PANEL ACCESS

AC POWER SUPPLY

SIGNAL

COMMON

1784 Chessie Lane, Ottawa, IL 61350 â¢ Tel: 800/252-7074, 815/434-7800 â¢ FAX: 815/434-8176

e-mail: sales@freqdev.com â¢ Web Address: http://www.freqdev.com

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