LMH6601Q NSC [National Semiconductor], LMH6601Q Datasheet - Page 17

LMH6601Q

Manufacturer Part Number

LMH6601Q

Description

250 MHz, 2.4V CMOS Operational Amplifier with Shutdown

Manufacturer

NSC [National Semiconductor]

Datasheet

1.LMH6601Q.pdf (28 pages)

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Application Information

OPTIMIZING PERFORMANCE

With many op amps, additional device non-linearity and

sometimes less loop stability arises when the output has to

switch from current-source mode to current-sink mode or vice

versa. When it comes to achieving the lowest distortion and

the best Differential Gain/ Differential Phase (DG/ DP, broad-

cast video specs), the LMH6601 is optimized for single supply

DC coupled output applications where the load current is re-

turned to the negative rail (V

is most linear (lowest distortion) and which corresponds to

unipolar current flowing out of this device. To that effect, it is

easy to see that the distortion specifications improve when

the output is only sourcing current which is the distortion-op-

timized mode of operation for the LMH6601. In application

where the LMH6601 output is AC coupled or when it is pow-

ered by separate dual supplies for V

supplies both source and sink current to the load and results

in less than optimum distortion (and DG/DP). Figure 1 com-

pares the distortion results between a DC and an AC coupled

load to show the magnitude of this difference. See the DG/DP

plots in the Typical Performance Characteristics section for a

comparison between DC and AC coupling of the video load.

In certain applications, it may be possible to optimize the

LMH6601 for best distortion (and DG/DP) even though the

load may require bipolar output current by adding a pull-down

resistor to the output. Adding an output pull-down resistance

of appropriate value could change the LMH6601 output load-

ing into source-only. This comes at the price of higher total

power dissipation and increased output current requirement.

Figure 2 shows how to calculate the pull-down resistor value

for both the dual supply and for the AC coupled load applica-

tions.

FIGURE 1. Distortion Comparison between DC & AC

Coupling of the Load

−

). That is where the output stage

and V

−

, the output stage

20136406

FIGURE 2. Output Pull-Down Value for Dual Supply & AC

Furthermore, with a combination of low closed loop gain set-

ting (i.e. A

highest), light output loading (R

cant capacitive load (C

if output sink current is kept to less than about 5 mA. The pull-

down method described in Figure 2 is applicable in these

cases as well where the current that would normally be sunk

by the op amp is diverted to the R

SHUTDOWN CAPABILITY AND TURN ON/ OFF

BEHAVIOR

With the device in shutdown mode, the output goes into high

impedance (R

path between the inputs and the output pin is through the ex-

ternal components around the device. So, for applications

where there is active signal connection to the inverting input,

with the LMH6601 in shutdown, the output could show signal

swings due to current flow through these external compo-

nents. For non-inverting amplifiers in shutdown, no output

swings would occur, because of complete input-output isola-

tion, with the exception of capacitive coupling.

For maximum power saving, the LMH6601 supply current

drops to around 0.1 μA in shutdown. All significant power

consumption within the device is disabled for this purpose.

Because of this, the LMH6601 turn on time is measured in

micro-seconds whereas its turn off is fast (nano-seconds) as

would be expected from a high speed device like this.

The LMH6601 SD pin is a CMOS compatible input with a pico-

ampere range input current drive requirement. This pin needs

to be tied to a level or otherwise the device state would be

indeterminate. The device shutdown threshold is half way be-

tween the V

example, with V

expect the threshold to be at 7.5V. The state of the device

(shutdown or normal operation) is guaranteed over tempera-

ture as longs as the SD pin is held to within 10% of the total

supply voltage.

For V

•

Shutdown Range

Normal Operation Range

= 10V, V

= +1 for example where device bandwidth is the

and V

OUT

−

= 5V, as an example:

tied to 10V and V

> 100 MΩ) mode. In this mode, the only

−

pin potentials at any supply voltage. For

> 10 pF) , the LMH6601 is most stable

Coupling

> 1 kΩ) , and with a signifi-

path instead.

−

equal to 5V, you can

9.5V

≤

www.national.com

≤

20136470

5.5V

10V

LMH6601Q NSC [National Semiconductor], LMH6601Q Datasheet - Page 17

LMH6601Q

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