LTC6403-1 Linear Technology, LTC6403-1 Datasheet - Page 11

LTC6403-1

Manufacturer Part Number

LTC6403-1

Description

Low Power Fully Differential Input/Output Amplifier/Driver

Manufacturer

Linear Technology

Datasheet

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APPLICATIONS INFORMATION

Functional Description

The LTC6403-1 is a small outline, wide band, low noise,

and low distortion fully-differential ampliﬁ er with accurate

output phase balancing. The LTC6403-1 is optimized to

drive low voltage, single-supply, differential input analog-

to-digital converters (ADCs). The LTC6403-1’s output is

capable of swinging rail-to-rail on supplies as low as 2.7V,

which makes the ampliﬁ er ideal for converting ground

referenced, single-ended signals into V

differential signals in preparation for driving low voltage,

single-supply, differential input ADCs. Unlike traditional

op amps which have a single output, the LTC6403-1 has

two outputs to process signals differentially. This allows

for two times the signal swing in low voltage systems

when compared to single-ended output ampliﬁ ers. The

balanced differential nature of the ampliﬁ er also provides

even-order harmonic distortion cancellation, and less

susceptibility to common mode noise (like power supply

noise). The LTC6403-1 can be used as a single ended input

to differential output ampliﬁ er, or as a differential input to

differential output ampliﬁ er.

The LTC6403-1’s output common mode voltage, deﬁ ned

as the average of the two output voltages, is independent

of the input common mode voltage, and is adjusted by

applying a voltage on the V

an internal resistive voltage divider develops a potential

halfway between the V

is recommended that a high quality ceramic capacitor is

used to bypass the V

plane (See Layout Considerations in this document). The

LTC6403-1’s internal common mode feedback path forces

accurate output phase balancing to reduce even order

harmonics, and centers each individual output about the

potential set by the V

The outputs (+OUT and –OUT) of the LTC6403-1 are

capable of swinging rail-to-rail. They can source or sink

up to approximately 60mA of current.

OCM

OUTCM

is not hard tied to a low impedance ground plane, it

OCM

OUT

and V

pin to a low impedance ground

pin.

OCM

–

pin. If the pin is left open,

–

pin voltages. Whenever

OUT

OCM

referenced

Additional outputs (+OUTF and –OUTF) are available that

provide ﬁ ltered versions of the +OUT and –OUT outputs. An

on-chip single pole RC passive ﬁ lter bandlimits the ﬁ ltered

outputs to a –3dB frequency of 44.2MHz. The user has a

choice of using the unﬁ ltered outputs, the ﬁ ltered outputs,

or modifying the ﬁ ltered outputs to adjust the frequency

response by adding additional components (see Output

Filter Considerations and Use section).

In applications where the full bandwidth of the LTC6403-1

is desired, the unﬁ ltered outputs (+OUT and –OUT) should

be used. The unﬁ ltered outputs +OUT and –OUT are

designed to drive 10pF to ground (or 5pF differentially).

Capacitances greater than 10pF will produce excess

peaking, which can be mitigated by placing at least 25Ω

in series with the output.

Input Pin Protection

The LTC6403-1’s input stage is protected against differen-

tial input voltages that exceed 1.4V by two pairs of back

to back diodes connected in anti-parallel series between

+IN and –IN (Pins 6 and 15). In addition, the input pins

have steering diodes to either power supply. If the input

pair is over-driven, the current should be limited to under

10mA to prevent damage to the IC. The LTC6403-1 also

has steering diodes to either power supply on the V

and ⎯ S ⎯ H ⎯ D ⎯ N pins (Pins 4 and 1), and if exposed to voltages

which exceed either supply, they too, should be current

limited to under 10mA.

⎯ S ⎯ H ⎯ D ⎯ N Pin

If the ⎯ S ⎯ H ⎯ D ⎯ N pin (Pin 1), is pulled 2.1V below the positive

supply, the LTC6403-1 will power down. The pin has the

Thevenin equivalent impedance of approximately 66k to V

If the pin is left unconnected, an internal pull-up resistor

of 150k will keep the part in normal active operation. Care

should be taken to control leakage currents at this pin to

under 1μA to prevent inadvertently putting the LTC6403-1

into shutdown. In shutdown, all biasing current sources

are shut off, and the output pins, +OUT and –OUT, will each

appear as an open collector with a non-linear capacitor in

parallel and steering diodes to either supply. Because of

LTC6403-1

OCM

64031f

LTC6403-1 Linear Technology, LTC6403-1 Datasheet - Page 11

LTC6403-1

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