Tubes, Discrete Solid State Devices, and Integrated Circuits 357resistors. In fact, while these parts are usually promoted
as input stages, they have applications to many circuits
where precise resistor ratios are required. The typical
90 dB common-mode rejection advertised by many of
these manufacturers requires ratio matching to within
0.005%.
Any resistance external to the line receiver input
appears in series with the highly matched internal resis-
tors. A basic line receiver connected to an imbalanced
circuit is shown in Fig. 12-64. Even a slight imbalance,
one as low as 10 from connector oxidation or poor
contact, can degrade common-mode rejection. Fig.
12-65 compares the reduction in CMR for low
common-mode impedance line receivers versus the
THAT1200 series or a transformer.The degradation of common-mode rejection from
impedance imbalance comes from the relatively
low-impedance load of simple line receivers interacting
with external impedance imbalances. Since unwanted
hum and noise appear in common-mode (as the same
signal in both inputs), common-mode loading by
common-mode input impedance is often a significant
source of error. (The differential input impedance is the
load seen by differential signals; the common-mode
input impedances is the load seen by common-modesignals.) To reduce the effect of impedance imbalance,
the common-mode input impedance, but not the differ-
ential impedance, must be made very high.12.3.6.5 Balanced Line Receivers with the
Common-Mode Performance of a TransformerThe transformer input stage has one major advantage
over most active input stages: its common-mode input
impedance is extremely high regardless of its differen-
tial input impedance. This is because transformers offer
floating connections without any connection to ground.
Active stages, especially those made with the simple
SSM2141-type IC have common-mode input imped-
ances of approximately the same value as their differen-
tial input impedance. (Note that for simple differential
stages such as these, the common-mode and differential
input impedances are not always the same.) Op-amp
input bias current considerations generally make it diffi-
cult to use very high impedances for these simple
stages. A bigger problem is that the noise of these stages
increases with the square root of the impedances
chosen, so large input impedances inevitably cause
higher noise.
Noise and op-amp requirements led designers to
choose relatively low impedances (10 k~25 k:). Unfor-
tunately, this means these stages have relatively low
common-mode input impedance as well (20 k~50 k:).
This interacts with the common-mode output imped-
ance (also relative to ground) of the driving stage, and
added cable or connector resistance. If the driver, cable,
or connectors provide an unequal, nonzero
common-mode output impedance, the input stage
loading will upset the natural balance of anyFigure 12-63. THAT 1246 with 6 dB gain. Courtesy THAT
Corporation.
Figure 12-64. Balanced circuit with imbalance. Courtesy
THAT Corporation.
63 12+In–In12k 6k 512k 6kU1
1246Output74SenseVoutRefVCCIn+ VEEIn–Rimbalance+- Vout
Vin+Vin–
R 1 R 2R 3 R 4Vdiff
2
Vdiff
2+Figure 12-65. CMR imbalance versus source. Courtesy
THAT Corporation.9010080
70
60Common mode rejection ratio–dB50
40
30
20
0 100 200
Differential source resistance error–Ohms300 400 500 600Common Mode Rejection versus ImbalanceInGenius Line ReceiverConventional Line Receiver