THAT1206 THAT Corporation, THAT1206 Datasheet - Page 8

THAT1206

Manufacturer Part Number

THAT1206

Description

(THAT1200 / THAT1203 / THAT1206) Ingenius High-cmrr Balanced Input Line Receiver

Manufacturer

THAT Corporation

Datasheet

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bias currents since their input bias flows through Ri1

and Ri2. Because of the difficulty of maintaining low

noise with low input bias currents, FET op amps

may be employed, but they impose their own limita-

tions, as described further on.

overcomes this problem by way of an AC bootstrap

technique, shown in simplified form in Figure 12. By

driving the lower end of R2 to nearly the same AC

voltage as the upper end, AC current flow through R2

is greatly reduced, effectively increasing its value. At

DC, of course, the input impedance Z is simply R1 +

R2.

passband of the high-pass filter formed by Cb and

R1, the effective value of the input impedance is in-

creased to infinity at sufficiently high frequencies.

the following equation:

20 kW. This resistance provides a DC path for am-

plifier bias current as well as leakage current that

might flow from a signal source. At higher frequen-

cies, the bootstrap greatly increases the input imped-

ance, limited ultimately by how close gain G

approaches unity. With the THAT 1200 input stages,

common-mode input impedances of several meg-

ohms across much of the audio spectrum can be ex-

pected.

the THAT 1200-series ICs.

high-impedance buffers feeding differential amplifier

OA3 in an instrumentation amplifier configuration.

The common mode signal is extracted at the junction

of Rc and Rd, buffered by OA4, and fed back to both

inputs via capacitor Cb and resistors Ra and Rb.

The junction of Ra, Rb and R5 is driven to the same

potential as the common-mode input voltage. Hence

no common-mode current flows in resistors Ra and

Rb. Since, ideally, no current flows, the input imped-

ance to common mode signals is infinite.

The THAT 1200 series of balanced line receivers

Input impedance Z, at frequency f, is described

where

For example, if R1 and R2 are 10 kW each, Z

Figure 1 shows a complete equivalent circuit for

If gain G is unity, for frequencies within the

(

)

THAT Corporation; 45 Sumner Street; Milford, Massachusetts 01757-1656; USA

(

Tel: +1 (508) 478-9200; Fax: +1 (508) 478-0990; Web: www.thatcorp.com

( )

) (

R C

)

OA1 and OA2 are

unity gain precision of OA4 and the input imped-

ances of OA1 and OA2, all of which are optimized in

THAT’s integrated circuit process.

and OA2 isolate OA3 from external source imped-

ances. Therefore, the performance of the differential

amplifier OA3 and its associated components are not

affected by imbalances in the source impedances.

lutions for minimizing CMRR degradation in the

presence of source impedance mismatch, and con-

trast them with THAT’s InGenius topology.

summarize, this solution offers high common-mode

rejection only when the source impedances are per-

fectly balanced, or a tiny fraction of the common-

mode input impedance.

+ In

- In

Alternatives

The effectiveness of this topology is limited by the

In the following section we will compare other so-

Precision 4-resistor op amp stage

This stage (Figure 8) was discussed earlier. To

Ri1

Ri2

Figure 12. InGenius bootstrap topology

Figure 11. Instrumentation amplifier

OA1

OA2

InGenius Balanced Line Receiver

Because differential- and

Preliminary Information

C b

Note that OA1

G = 1

OA3

Out

THAT1206 THAT Corporation, THAT1206 Datasheet - Page 8

THAT1206

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