THS4511-SP Datasheet, PDF(16/24 Page) Texas Instruments – RAD-TOLERANT CLASS V, WIDEBAND, FULLY DIFFERENTIAL AMPLIFIER

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THS4511-SP Datasheet, PDF (16/24 Pages) Texas Instruments – RAD-TOLERANT CLASS V, WIDEBAND, FULLY DIFFERENTIAL AMPLIFIER

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THS4511âSP

SLOS538A â SEPTEMBER 2007 â REVISED OCTOBER 2007

Setting the Output Common-Mode Voltage

The output common-mode voltage is set by the

voltage at the CM pin(s). The internal common-mode

control circuit maintains the output common-mode

voltage within 5 mV offset (typical) from the set

voltage, when set within 0.5 V of mid-supply. If left

unconnected, the common-mode set point is set to

mid-supply by internal circuitry, which may be

over-driven from an external source. Figure 37 is

representative of the CM input. The internal CM

circuit has about 700 MHz of â3 dB bandwidth, which

is required for best performance, but it is intended to

be a dc-bias input pin. Bypass capacitors are

recommended on this pin to reduce noise at the

output. The external current required to overdrive the

internal resistor divider is given by Equation 2:

( ) IEXT

2VCM

- VS+ - VS-

50 kW

(2)

where VCM is the voltage applied to the CM pin, and

VS+ ranges from 3.75 V to 5 V, and VS- is 0 V

(ground).

VS+

To Internal

CM Circuit

50 kâ¦

IEXT

V Sâ

Figure 37. CM Input Circuit

Device Operation with Single Power Supplies

Less than 5 V

The THS4511 is optimized to work in systems using

5 V single supplies, and the characterization data

presented in this data sheet was taken with 5 V

single-supply inputs. For ac-coupled systems or

dc-coupled systems operating with supplies less than

5 V and greater than 3.75 V, the amplifier input

common-mode range is maximized by adding

pull-down resistors at the device inputs. The

pull-down resistors provide additional loading at the

input, and lower the common-mode voltage that is fed

back into the device input through resistor RF.

Figure 38 shows the circuit configuration for this

mode of operation where RPD is added to the

dc-coupled circuit to avoid violating the VICR of the

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operational amplifier. Note RS and RIT are added to

the alternate input from the signal input to balance

the amplifier. One resistor that is equal to the

combined value RI = RG + RS||RIT can be placed at

the alternate input.

VSignal

RIT

RPD VS+ = 3.75 V to 5 V

THS4511

RIT

RPD VSâ

VCM

VOUT-

VOUT+

Figure 38. THS4511 DC Coupled Single-Source

Supply Range From 3.75 V to 5 V With RPD Used

To Set VIC

Note that in Figure 38, the source is referenced to

ground as is the input termination resistor RIT. The

proper value of resistance to add can be calculated

from Equation 3:

RPD =

Ã©

Ã¹

Ãª

ÃªÃ«

1 .6

VS + -

1 .6

Ãº

ÃºÃ»

(3)

where RI = RG + RS||RIT.

VS+ is the power-supply voltage, RF is the feedback

resistance, RG is the gain-setting resistance, RS is the

signal source resistance, and RIT is the termination

resistance.

Table 3 is a modification of Table 1 to add the proper

values with RPD assuming VS+ = 3.75 V, a dc-coupled

50 â¦ source impedance, and setting the output

common-mode voltage to mid-supply.

Table 3. RPD Values for Various Gains,

VS+ = 3.75 V, DC-coupled Signal Source

Gain

6 dB

348 â¦

169 â¦

RIT

64.9 â¦

RPD

80.6 â¦

10 dB

348 â¦

102 â¦

78.7 â¦

90.9 â¦

14 dB

348 â¦

61.9 â¦

115 â¦

90.9 â¦

20 dB

348 â¦

40.2 â¦

221 â¦

77.6 â¦

If the signal originates from an ac-coupled 50 â¦

source (see Figure 39), the equivalent dc-source

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