Atec Stanford-Research-SR810-SR830 User Manual

phone: (408)744-9040

www.thinkSRS.com

Stanford Research Systems

SR810 and SR830 Specifications

Signal Channel

Voltage inputs

Single-ended or differential

Sensitivity 2 nV to 1 V

Current input

10

6

or 10

8

V/A

Input impedance

Voltage

10 MΩ + 25 pF, AC or DC coupled

Current

1 kΩ to virtual ground

Gain accuracy

±1 % (±0.2 % typ.)

Noise (typ.)

6 nV/√Hz at 1 kHz

0.13 pA/√Hz at 1 kHz (10

6

V/A)

0.013 pA/√Hz at 100 Hz (10

8

V/A)

Line filters

50/60 Hz and 100/120 Hz (Q = 4 )

CMRR 100 dB to 10 kHz, decreasing by

6 dB/oct above 10 kHz

Dynamic reserve

>100 dB (without prefilters)

Stability <5 ppm/°C

Reference Channel

Frequency range

0.001 Hz to 102.4 kHz

Reference input

TTL or sine (400 mVpp min.)

Input impedance

1 MΩ, 25 pF

Phase resolution

0.01° front panel, 0.008° through

computer interfaces

Absolute phase error

<1°

Relative phase error

<0.001°

Orthogonality 90° ± 0.001°

Phase noise

Internal ref.

Synthesized, <0.0001° rms at 1 kHz

External ref.

0.005° rms at 1 kHz (100 ms time

constant, 12 dB/oct)

Phase drift

<0.01°/°C below 10 kHz,

<0.1°/°C above 10 kHz

Harmonic detection

2F, 3F, ... nF to 102 kHz (n < 19,999)

Acquisition time

(2 cycles + 5 ms) or 40 ms,

whichever is larger

Demodulator

Stability

Digital outputs and display: no drift

Analog outputs: <5 ppm/°C for all

dynamic reserve settings

Harmonic rejection

–90 dB

Time constants

10 µs to 30 ks (6, 12, 18, 24 dB/oct

rolloff). Synchronous filters

available below 200 Hz.

Internal Oscillator

Range 1 mHz to 102 kHz

Frequency accuracy

25 ppm + 30 µHz

Frequency resolution 4½ digits or 0.1 mHz, whichever

is greater

Distortion –80 dBc (f < 10 kHz), –70 dBc

(f > 10 kHz) @ 1 Vrms amplitude

Amplitude

0.004 to 5 Vrms into 10 kΩ (2 mV

resolution), 50 Ω output impedance,

50 mA maximum current into 50 Ω

Amplitude accuracy

1 %

Amplitude stability

50 ppm/°C

Outputs

Sine, TTL (When using an external

reference, both outputs are phase

locked to the external reference.)

Displays

Channel 1

4½-digit LED display with

40-segment LED bar graph. X, R,

X-noise, Aux 1 or Aux 2. The

display can also be any of these

quantities divided by Aux 1 or Aux 2.

Channel 2 (SR830)

4½-digit LED display with

40-segment LED bar graph. Y, θ,

Y-noise, Aux 3 or Aux 4. The display

can also be any of these quantities

divided by Aux 3 or Aux 4.

Offset

X, Y, R can be offset up to ±105 %

of full scale.

Expand

X, Y, R can be expanded by 10×

or 100×

Reference

4½-digit LED display

Inputs and Outputs

CH1 output

X, R, X-noise, Aux 1 or Aux 2

(±10 V), updated at 512 Hz.

CH2 output (SR830)

Y, θ, Y-noise, Aux 3 or Aux 4

(±10 V), updated at 512 Hz.

X, Y outputs

In-phase and quadrature components

(rear panel)

(±10 V), updated at 256 kHz

Aux. A/D inputs

4 BNC inputs, 16-bit, ±10 V,

1 mV resolution, sampled at 512 Hz

Aux. D/A outputs

4 BNC outputs, 16-bit, ±10 V,

1 mV resolution

Sine out

Internal oscillator analog output

TTL out

Internal oscillator TTL output

Data buffer

The SR810 has an 8k point buffer.

The SR830 has two 16k point

buffers. Data is recorded at rates to

512

Hz and read through the

computer interfaces.

Trigger in (TTL)

Trigger synchronizes data recording

Remote preamp

Provides power to the optional

SR55X preamps

General

Interfaces

IEEE-488.2 and RS-232 interfaces

standard. All instrument functions

can be controlled and read through

IEEE-488.2 or RS-232 interfaces.

Power 40 W, 100/120/220/240 VAC,

50/60 Hz

Dimensions 17" Ч 5.25" Ч 19.5" (WHD)

Weight 23 lbs.

Warranty

One year parts and labor on defects

in materials and workmanship