HA5024IBZ Intersil, HA5024IBZ Datasheet - Page 8

HA5024IBZ

Manufacturer Part Number

HA5024IBZ

Description

IC OPAMP QUAD 125MHZ 20-SOIC

Manufacturer

Intersil

Datasheet

1.HA5024IBZ.pdf (16 pages)

Specifications of HA5024IBZ

Applications

Current Feedback

Number Of Circuits

-3db Bandwidth

125MHz

Slew Rate

350 V/µs

Current - Supply

7.5mA

Current - Output / Channel

20mA

Voltage - Supply, Single/dual (±)

±4.5 V ~ 18 V

Mounting Type

Surface Mount

Package / Case

20-SOIC (0.300", 7.50mm Width)

Peak Reflow Compatible (260 C)

Yes

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

HA5024IBZ

Manufacturer:

INFTEL

Quantity:

20 000

Current page: 8 of 16
Download datasheet (417Kb)

The circuit shown in Figure 8 is a simplified schematic of the

enable/disable function. The large value resistors in series with

the DISABLE pin makes it appear as a current source to the

driver. When the driver pulls this pin low current flows out of the

pin and into the driver. This current, which may be as large as

350µA when external circuit and process variables are at their

extremes, is required to insure that point “A” achieves the

proper potential to disable the output.The driver must have the

compliance and capability of sinking all of this current.

When V

dedicated TTL gate. The maximum low level output voltage

of the TTL gate, 0.4V, has enough compliance to insure that

the amplifier will always be disabled even though D

turn on, and the TTL gate will sink enough current to keep

point “A” at its proper voltage. When V

the DISABLE pin should be driven with an open collector

device that has a breakdown rating greater than V

Referring to Figure 8, it can be seen that R

resistor to +V

where the enable/disable function is not required on all circuits

some circuits can be permanently enabled by letting the

DISABLE pin float. If a driver is used to set the enable/disable

level, be sure that the driver does not sink more than 20µA

when the DISABLE pin is at a high level. TTL gates, especially

CMOS versions, do not violate this criteria so it is permissible to

control the enable/disable function with TTL.

Typical Applications

Four Channel Video Multiplexer

Referring to the amplifier U

cable in its characteristic impedance of 75Ω, and R

terminates the cable in its characteristic impedance. The

amplifier is set up in a gain configuration of +2 to yield an

overall network gain of +1 when driving a double terminated

cable. The value of R

gain is desired. R

inhibiting the amplifier until the switch, S

position 1. At position 1 the switch pulls the disable pin up to

the plus supply rail thereby enabling the amplifier. Since all

of the actual signal switching takes place within the amplifier,

its differential gain and phase parameters, which are 0.03%

and 0.03 degrees respectively, determine the circuit’s

performance. The other three circuits, U

operate in a similar manner.

ENABLE/DISABLE INPUT

FIGURE 8. SIMPLIFIED SCHEMATIC OF ENABLE/DISABLE

is +5V the DISABLE pin may be driven with a

FUNCTION

15K

if the DISABLE pin is left open. In those cases

holds the disable pin at ground thus

15K

can be changed if a different network

in Figure 9, R

is greater than +5V

, is thrown to

will act as a pull-up

through U

terminates the

P18

back

will not

HA5024

When the plus supply rail is 5V the disable pin can be driven by

a dedicated TTL gate as discussed earlier. If a multiplexer IC or

its equivalent is used to select channels its logic must be break

before make. When these conditions are satisfied the

HA5024IP is often used as a remote video multiplexer, and the

multiplexer may be extended by adding more amplifier ICs.

Low Impedance Multiplexer

Two common problems surface when you try to multiplex

multiple high speed signals into a low impedance source such

as an A/D converter. The first problem is the low source

impedance which tends to make amplifiers oscillate and

causes gain errors. The second problem is the multiplexer

which supplies no gain, introduces all kinds of distortion and

limits the frequency response. Using op amps which have an

enable/disable function, such as the HA5024, eliminates the

multiplexer problems because the external mux chip is not

needed, and the HA5024 can drive low impedance (large

capacitance) loads if a series isolation resistor is used.

VIDEO

INPUT

VIDEO

INPUT

VIDEO

INPUT

NOTES:

18. U

19. All resistors in Ω.

20. S

21. Use ground plane.

(NOTE 17)

+5V IN

FIGURE 9. FOUR CHANNEL VIDEO MULTIPLEXER

is HA5024IP.

is break before make.

(NOTE 17)

0.1µF

(NOTE 17)

100Ω

681

100Ω

681

-5V

+5V

10µF

2000

+5V

-5V IN

0.1µF

VIDEO OUTPUT

75Ω LOAD

February 8, 2006

ALL

OFF

1 R

100

10µF

3550.6

-5V

+5V

HA5024IBZ Intersil, HA5024IBZ Datasheet - Page 8

HA5024IBZ

Specifications of HA5024IBZ

Available stocks

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