Model SR554
Transformer Preamplifier
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Model SR554
Transformer Preamplifier
1290-D Reamwood Avenue
Sunnyvale, California 94089
Phone: (408) 744-9040 • Fax: (408) 744-9049
Copyright © 1999 by SRS, Inc.
All Rights Reserved.
Revision 1.2 (07/2004)
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SR554 SPECIFICATIONS
Inputs
Single ended or differential
Input Impedance
Maximum Inputs
0.5 Ω
Transformer and Buffer:
Transformer only:
14.0 mV RMS (±20 mV peak)
350 mV RMS (±0.5 V peak)
Common Mode
Isolation
Range:
Rejection:
± 100 VDC
140 dB @ 100 Hz
> 40dB
DC to 500 MHz
Input Noise
(Transformer and Buffer)
120 pV/√Hz @ 10 Hz
100 pV/√Hz @ 100 Hz
100 pV/√Hz @ 1000 Hz
(see noise contours, pg. 5)
(typical)
Gain
Transformer and Buffer:
Transformer only:
500
100
(nominal)
(nominal)
See Amplitude-Frequency Response Curve (pg 6).
5% (with fixed source resistance)
100 ppm/ °C
Gain Accuracy
Gain Stability
Outputs
Single ended or differential
Output Impedance
Transformer and Buffer:
Transformer only:
< 1.0 Ω
> 5000 Ω
Maximum Output
Power
Transformer and Buffer:
Transformer only:
7.1 V RMS (10 Volts peak)
35.3 V RMS (50 Volts peak)
Provided by any SRS lock-in amplifier via the supplied
connector cable or from a ± 20 volts DC @ 100 mA source.
Mechanical
Warranty
2.9" X 3.8" X 7.5" (HxWxL), 4 lb.
One year parts and labor on materials and workmanship.
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OPERATION
The SR554 Transformer Preamplifier is
indicator on the SR554 will light.
designed to be used with all SRS Lock-in
amplifiers. It can reduce input noise of a
lock-in amplifier dramatically (as low as
100 pV/√Hz) and extends the lock-in’s full
scale sensitivity (without expand). It also
nearly eliminates noise radiated back from
the lock-in amplifier to the users
experiment. When used as a remote
preamplifier, the SR554 can eliminate the
effects of noise pickup on long signal
The SR554 output switch selects between
buffered mode with a gain of 500,
(transformer and buffer) or bypassed
mode with a gain of 100 (transformer
alone).
In the buffered mode, the
transformer secondary goes into a low
noise buffer which drives the output cable.
This is to reduce loading due to the
transformer output impedance (about 5
kΩ) and cable capacitance (10's of pf). If
the user prefers not to use the buffer or if
power isn’t available for the preamp, then
the SR554 can be used in the bypassed
mode. In the bypassed mode, the output
impedance of the pre-amp is 5 kΩ and
care must be taken to avoid loading the
output with too much cable capacitance.
Power should not be connected to the
SR554 when used in the bypass mode.
cables.
The SR554 transformer is
designed to be used with its internal
buffer, but the buffer may be bypassed for
transformer only operation. When used
as a simple transformer, no power
connection is required.
CONNECTING THE SR554
When the transformer and buffer are used
together, power is supplied to the SR554
via the 9 pin connector and cable. This
cable mates with all SRS lock-in amplifiers
through the rear panel connector. To use
the SR554 without an SRS lock-in, the
user must provide their own ±20 VDC
(100 mA) source. Always connect the
power cable to the SR554 while the lock-
in power is off. Attach one end of the
cable to the connector on the rear of the
SR554, and connect the other end to the
PRE-AMP connector on the rear of the
lock-in. If a longer cable is required, any
standard 9 pin cable will suffice since all
connections are straight through. When
the lock-in power is on, the POWER
INPUT CONNECTION
Signals into the SR554 can be connected
either single ended through the (A) input,
or differentially through the (A-B) inputs.
In the single ended configuration the
shield and center conductor of the (A)
input are connected to the transformer.
For differential connection, the shields of
the input BNC’s are connected to the
SR554 case and the (A) and (B) center
conductors connect to the transformer.
The input impedance is a combination of
0.5 Ω and 0.5 H (in series) in parallel with
3
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functional when the unit is in the buffered
mode. If the unit is operated in the
bypassed mode and power is applied, the
overload LED may light even when the
unit is not overloaded. This does not
indicate an overload, but is due to leakage
current of the buffer amplifier and its
protection circuitry. To avoid this, power
should not be connected when the unit is
used in the bypassed mode.
1.6 µF. The real portion of the input
impedance (0.5 Ω) determines the noise
performance. See page 7 for detailed
information on input impedance.
The input can be floated up to ±100 VDC
with respect to the chassis.
The
maximum AC input before overload is 14
mV RMS (±20 mV peak) when the unit is
in the buffered mode. In either mode, the
input is clamped at about 350 mV RMS
(±0.5 V peak). Care should be taken when
the unit is used in the bypassed mode,
since a ±0.5 V peak input becomes ±50 V
at the output.
OUTPUT CONNECTION
For single ended operation the (A) Output
of the SR554 should be connected to the
(A) Input of the lock-in amplifier. The
center conductor carries the signal and
the shield is ground.
applications, this single connection will be
adequate.
For most
In the buffered mode, the OVERLOAD
indicator will light when the preamplifier
overloads. An overload that occur after
the preamplifier will be indicated by the
lock-in amplifier’s overload indicator. The
SR554’s overload indicator is only
For situations with potential noise pick-up
on the cable, it may be better to operate in
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the differential mode. In differential
operation the (A) and (B) center
conductors carry the signal and shielded
preamp ground, and the shields are tied to
the SR554 chassis. The (A) and (B)
cables should be twisted together to
prevent inductive pick-up.
significant cable capacitance will create a
low-pass filter with this output resistance
as well, so short cables should always be
used.
GAIN OF SR554
The actual gain of the SR554 is a function
of the source impedance, frequency and
the set gain. In the bypass mode (x100),
the gain will be affected by loading on the
output. The gain is fairly flat over a range
of input impedances (<10 Ω) and
frequencies (5 Hz-10 kHz). The actual
gain can be determined from the
amplitude-frequency response curves on
page 4. The plot assumes operating the
SR554 in the buffered mode or with no
loading on the output in the bypassed
mode.
For most experiments it is preferable to
use the SR554 in the buffered mode. If
the preamplifier is used in the bypass
mode, care must be taken to not load the
output. The output resistance of the
transformer is at least 5 kΩ (for a 0 Ω
source) and is typically 10,000 times the
input resistance.
Therefore, a 50 Ω
source impedance will become 500 kΩ. If
the instrument that the SR554 is
connected to has an input impedance of 1
MΩ, 1/3 of the signal is lost.
Any
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EXTRA LOW NOISE MEASUREMENTS
When making extremely low noise
measurements, it is a good practice to
connect the grounding plug of the SR554
to a ground point near the experiment. If a
good ground is not available near the
experiment, connect a wire from the lock-
in chassis (using a lug under one of the
chassis screws) to the grounding lug of
the SR554.
USING THE SR554 WITH SRS LOCK-
INS
The SR554 is not sensed through the 9
pin cable by SRS lock-in amplifiers.
Therefore the lock-in does NOT
compensate for the gain of the preamp.
Measurements made using the preamp
must be divided by the gain of the SR554.
The actual gain can be obtained from the
amplitude response curves on page 4.
NOISE FIGURE
The noise figure describes the noise
USING THE SR554 WITH THE
SR810/830/850
contribution of an amplifier in
measurement when compared to an ideal
amplifier.
a
For typical measurements the lock-in input
should be set to AC coupled, with the
shield grounded.
For low frequency
measurements (<1Hz), set the lock-in to
DC coupled, with the shield grounded,
since the SR554 can sense signals below
the lock-in’s AC coupling frequency
(0.16 Hz).
The expression:
USING THE SR554 WITH THE
SR510/530
The SR510/530 is AC coupled from 0.5
Hz to 100 kHz. Measurements below 0.5
Hz are not recommended with the
SR510/530.
where N is the measured noise, A is the
pre-amp gain and enrs is the Johnson
noise of the source impedance, describes
the noise figure contours shown below.
The optimum operating frequency can be
determined from this graph.
6
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USING THE SR554 WITHOUT AN SRS
LOCK-IN
The SR554 can be powered with an
external power supply. Power is applied
through the 9 pin connector as described
below.
ground point. If a ground is not available
near the experiment, connect a wire to the
lock-in using a lug under one of the
chassis screws.
INPUT IMPEDANCE
The input impedance of the SR554
appears as a combination of 0.5 Ω and
0.5 H (in series) in parallel with 1.6 µF and
PIN
1
6
VOLTAGE
+20 V
-20 V
Ground
CURRENT
100 mA
100 mA
several parasitic impedances.
The
7,8
transformer primary has a DC resistance
of 0.2 Ω and a primary inductance of 0.5
H. The secondary has a DC resistance of
3 kΩ and a capacitance of about 160 pF.
When the secondary impedance is
converted over to the primary side of the
transformer by the turns ratio (1:100), the
0.5 Ω, 0.5 H and 1.6 µF values are
Both voltages are required. Pins 7 and 8
should be tied together and grounded. All
other pins should be left open.
COMMON MODE REJECTION RATIO
The SR554 has an extremely high CMRR
at low frequencies (up to 160 dB below 10
Hz). It drops off at higher frequencies due
to capacitive coupling between the
primary and secondary windings and
reduced signal gain. See the graph below
for the relationship between CMRR and
frequency.
obtained.
The actual values of the
magnitude and phase of the input
impedance is shown in the graph below.
RADIATED NOISE
The SR554 reduces radiated noise from
the lock- in amplifier’s input by 40 dB
(100x) over most frequencies (DC to 500
MHz). To minimize radiated noise, a thick
(low impedance) wire should be
connected from the ground plug to a quiet
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PERFORMANCE TESTS
Performance tests are designed to verify
that the unit is performing within the
specifications.
4) For each frequency, the following
amplitude should be observed, ± 5%.
Necessary Equipment:
Frequency
1.0 Hz
10 Hz
100 Hz
200 Hz
500 Hz
1 kHz
10 kHz
100 kHz
Amplitude
31 mV
252 mV
438 mV
442 mV
439 mV
414 mV
96 mV
1. Lock-In Amplifier
Freq Range
Output Ampl
Output Z
0.1 Hz - 100 kHz
4 mV rms - 1 Vrms
50 Ω
Recommended SRS SR850/830/810
11 mV
2. 50 ΩTerminator
5) Disconnect the lock-in reference from
the SR554 input. Connect the 50 Ω
terminator to the SR554 (A) input.
3. 50 Ω, 20 dB Attenuator
The instructions here apply to SRS DSP
lock-ins (SR850/830/810). Other lock-in
amplifiers may be used. However they will
require substantially longer time constants
to arrive at accurate measurements.
6) Set the lock-in to measure noise.
7) For each frequency and time constant,
the following rms noise voltage should
be observed (±10%). Set the lock-in
sensitivity to about 5 times the
expected reading and allow it to settle
(10-20 time constants) before making
readings.
1) Connect the 9-pin power cable from
the rear of the lock-in amplifier to the
SR554. Connect the 20 dB attenuator
to the lock-in reference output and a
BNC cable from that to the SR554
(A) input. Connect another BNC cable
from the SR554's (A) output to the
lock-in’s (A) input. Set SR554 to
Frequency Time Constant Noise Voltage
1.0 Hz
10 Hz
100 Hz
200 Hz
500 Hz
1 kHz
3.0 s
1.0 s
0.1 s
0.1 s
0.1 s
0.03 s
0.03 s
0.03 s
480 nV
260 nV
460 nV
460 nV
460 nV
420 nV
120 nV
60 nV
buffered mode (X500), (A) input.
2) Power on the lock-in in the default
condition. (SR810/830 Power on
Setup, SR850 Power on Bksp) This
places the lock-in in a known state.
The power LED of the SR554 should
light.
10 kHz
100 kHz
3) Set the input to DC coupled, grounded
shield. Set the time constant to 300
ms (1 s for 1 Hz measurement), 12
dB/oct filter and turn on synchronous
filtering (if available). Set the display
type to magnitude (R) and the
reference sinewave amplitude to 10
mV rms.
9
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Part List
Ref.
SRS part
Value
130P
Description
C 101 5-00254-501
C 102 5-00023-529
C 103 5-00023-529
C 104 5-00005-501
C 105 5-00023-529
C 106 5-00312-503
C 107 5-00016-501
C 108 5-00044-509
C 109 5-00100-517
C 110 5-00100-517
C 111 5-00023-529
C 112 5-00312-503
C 113 5-00016-501
C 114 5-00044-509
C 115 5-00100-517
C 116 5-00281-521
C 117 5-00281-521
D 101 3-00226-301
D 102 3-00226-301
D 103 3-00403-301
D 104 3-00403-301
D 105 3-00011-303
D 106 3-00010-303
Capacitor, Ceramic Disc, 50V, 10%, SL
Cap, Monolythic Ceramic, 50V, 20%, Z5U
Cap, Monolythic Ceramic, 50V, 20%, Z5U
Capacitor, Ceramic Disc, 50V, 10%, SL
Cap, Monolythic Ceramic, 50V, 20%, Z5U
Capacitor, Ceramic Disc, 50V, 20%, Z5U
Capacitor, Ceramic Disc, 50V, 10%, SL
Capacitor, Electrolytic, 50V, 20%, Rad
Capacitor, Tantalum, 35V, 20%, Rad
Capacitor, Tantalum, 35V, 20%, Rad
Cap, Monolythic Ceramic, 50V, 20%, Z5U
Capacitor, Ceramic Disc, 50V, 20%, Z5U
Capacitor, Ceramic Disc, 50V, 10%, SL
Capacitor, Electrolytic, 50V, 20%, Rad
Capacitor, Tantalum, 35V, 20%, Rad
Capacitor, Electrolytic, 25V, 20%, Rad
Capacitor, Electrolytic, 25V, 20%, Rad
Diode
Diode
Diode
Diode
LED, T1 Package
LED, T1 Package
Connector, BNC
Connector, BNC
Connector, BNC
.1U
.1U
150P
.1U
.005U
470P
47U
2.2U
2.2U
.1U
.005U
470P
47U
2.2U
220U
220U
1N5822
1N5822
1N459A
1N459A
RED
GREEN
BNC
BNC
J 101
J 102
J 103
J 104
J 104
J 109
L 101
L 102
PC1
1-00003-120
1-00003-120
1-00003-120
1-00003-120
1-00014-160
1-00229-102
6-00174-630
6-00174-630
7-00613-701
BNC
BNC
Connector, BNC
Connector, D-Sub, Right Angle PC, Female
Binding Post
Ferrite Beads
Ferrite Beads
9 PIN D
BINDING
6611 TYPE 43
6611 TYPE 43
SR554 PREAMP
100
4.99K
1.24K
10.0K
100K
200K
200K
100K
3.0K
2.0K
22
22
22
DPDT
DPDT
SR554
T68-17
T68-17
AD743
LM339
78L15
79L15
3/8"
Printed Circuit Board
R 101 4-00141-407
R 102 4-00188-407
R 103 4-00134-407
R 104 4-00138-407
R 105 4-00142-407
R 106 4-00166-407
R 107 4-00166-407
R 108 4-00142-407
R 110 4-00063-401
R 111 4-00045-401
R 112 4-00056-401
R 113 4-00056-401
R 114 4-00056-401
SW101 2-00022-217
SW102 2-00027-214
T 101 6-00169-610
T 102 6-00173-614
T 103 6-00173-614
U 101 3-00535-340
U 102 3-00193-340
U 103 3-00118-325
U 104 3-00124-325
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Metal Film, 1/8W, 1%, 50PPM
Resistor, Carbon Film, 1/4W, 5%
Resistor, Carbon Film, 1/4W, 5%
Resistor, Carbon Film, 1/4W, 5%
Resistor, Carbon Film, 1/4W, 5%
Resistor, Carbon Film, 1/4W, 5%
Switch, On-None-On, Toggle, Right Angle
Switch, Miniature Bat Toggle
Transformer
Iron Powder Core
Iron Powder Core
Integrated Circuit (Thru-hole Pkg)
Integrated Circuit (Thru-hole Pkg)
Transistor, TO-92 Package
Transistor, TO-92 Package
Lugs
Z 0
0-00025-005
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Part List
Ref.
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
Z 0
SRS part
Value
Description
Nut, Kep
Standoff
Tie
Wire #24 UL1007 Strip 1/4x1/4 Tin
Screw, Black, All Types
Screw, Panhead Phillips
Screw, Flathead Phillips
Screw, Panhead Phillips
Hardware, Misc.
Wire #22 UL1007
BLK Wire #22 UL1007
Washer, nylon
0-00043-011
0-00079-031
0-00089-033
0-00128-053
0-00150-026
0-00187-021
0-00208-020
0-00209-021
0-00221-000
0-00263-052
0-00266-052
0-00304-043
0-00386-003
0-00440-052
7-00604-720
7-00605-720
7-00606-720
7-00607-709
9-00267-917
4-40 KEP
4-40X3/16 M/F
4"
4" #24
4-40X1/4PF
4-40X1/4PP
4-40X3/8PF
4-40X3/8PP
SR440FOOT
3" #22
8-1/2" #22
7/8X3/8X1/16
SOLDR SLV RG174 Termination
2-1/2" #22 RED
SR554-1
SR554-2
SR554-3
SR554
Wire #22 UL1007
Fabricated Part
Fabricated Part
Fabricated Part
Lexan Overlay
Product Labels
GENERIC
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