Stanford Research Systems SR810 Manual page 54

Front Panel
INPUT OVLD
[Couple]
[Ground]
[Notch]
The OVLD led in this section indicates an INPUT overload. This occurs
for voltage inputs greater than 1.4Vpk (unless removed by AC coupling)
or current inputs greater than 10 µA DC or 1.4 µA AC (1MΩ gain) or
100 nA DC or 14 nA AC (100MΩ gain). Reduce the input signal level.
This key selects the input coupling. The signal input can be either AC or
DC coupled. The current input is coupled after the current to voltage
conversion. The current input itself is always DC coupled (1 kΩ to virtual
ground).
The AC coupling high pass filter passes signals above 160 mHz and
attenuates signals at lower frequencies. AC coupling should be used at
frequencies above 160 mHz whenever possible. At lower frequencies,
DC coupling is required. AC coupling results in gain and phase errors at
low frequencies.
Remember, the Reference Input is AC coupled when a sine
reference is used. This also results in phase errors at low
frequencies.
This key chooses the shield grounding configuration. The shields of the
input connectors (A and B) are not connected directly to the lock-in
chassis ground. In Float mode, the shields are connected by 10 kΩ to
the chassis ground. In Ground mode, the shields are connected by
10 Ω to ground. Typically, the shields should be grounded if the signal
source is floating and floating if the signal source is grounded. Do not
exceed 1 V on the shields.
This key selects no line notch filters, the line frequency or twice line
frequency notch, or both filters. The line notch filters are pre-tuned to the
line frequency (50 or 60 Hz) and twice the line frequency (100 or 120
Hz).
These filters have an attenuation depth of at least 30 dB. These filters
have a finite range of attenuation, generally 10 Hz or so. If the reference
frequency is 70 Hz, do not use the 60 Hz notch filter! The signal will be
attenuated and the phase shifted. See the SR810 Basics section for a
discussion of when these filters improve a measurement.
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