MAX4516EUK+T Maxim Integrated Products, MAX4516EUK+T Datasheet - Page 5

MAX4516EUK+T

Manufacturer Part Number

MAX4516EUK+T

Description

IC SWITCH SPST SOT23-5

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX4516EUKT.pdf (8 pages)

Specifications of MAX4516EUK+T

Function

Switch

Circuit

1 x SPST- NO

On-state Resistance

20 Ohm

Voltage Supply Source

Dual Supply

Voltage - Supply, Single/dual (±)

±1 V ~ 6 V

Current - Supply

-30µA, 40µA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SC-74A, SOT-753

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

MAX4516EUK+T
MAX4516EUK+TTR

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The MAX4516/MAX4517 operate with power-supply

voltages from ±1V to ±6V, but are tested and guaran-

teed only with ±5V supplies. Similarly, they will operate

with a single +2V to +12V supply, but logic-level inputs

can shift with higher voltages. The pin-compatible

MAX4514/MAX4515 are recommended for use with a

single supply.

The MAX4516/MAX4517 construction is typical of most

CMOS analog switches, except that they have only two

supply pins: V+ and V-. V+ and V- drive the internal

CMOS switches and set their analog voltage limits.

Reverse ESD-protection diodes are internally connected

between each analog-signal pin and both V+ and V-.

One of these diodes conducts if any analog signal

exceeds V+ or V-.

Virtually all the analog leakage current comes from the

ESD diodes to V+ or V-. Although the ESD diodes on a

given signal pin are identical and therefore fairly well

balanced, they are reverse biased differently. Each is

biased by either V+ or V- and the analog signal. This

means their leakages will vary as the signal varies. The

difference in the two diode leakages to the V+ and V-

pins constitutes the analog-signal-path leakage current.

All analog leakage current flows between each pin and

one of the supply terminals, not to the other switch ter-

minal. This is why both sides of a given switch can

show leakage currents of the same or opposite polarity.

There is no connection between the analog-signal

paths and V+ or V-.

Note: NO, NC, and COM pins are identical and interchangeable. Any may be considered as an input or an output; signals pass

equally well in both directions.

______________________________________________________________Pin Description

__________Applications Information

DIP/SO

2, 3, 5

—

MAX4516

MAX4517

SOT23-5

—

Power-Supply Considerations

_______________________________________________________________________________________

DIP/SO

2, 3, 5

—

MAX4517

SOT23-5

Dual-Supply, Low-On-Resistance,

—

SPST, CMOS Analog Switches

NAME

COM

N.C.

V+

V-

Analog Switch Common Terminal

No Connect (not internally connected)

Positive Supply-Voltage Input (analog and digital)

Digital Control Input

Negative Supply-Voltage Input (analog and digital)

Analog Switch (normally open)

Analog Switch (normally closed)

V+ and V- also power the internal logic and logic-level

translators. The logic-level translators convert the logic

levels to switched V+ and V- signals to drive the analog

signal gates.

The logic-level thresholds are CMOS-compatible but

not TTL-compatible. Since these parts have no

ground pin, the logic-level threshold is referenced to

V+. The threshold limits are V+ = -1.5V and V+ = -3.5V

for V+ levels between +6V and +3V. When V+ = +2V,

the logic threshold is approximately 0.6V.

Do not connect the MAX4516/MAX4517’s V+ to +3V

and then connect the logic-level pins to logic-level

signals that operate from a +5V supply. TTL levels

can exceed +3V and violate the absolute maximum

ratings, damaging the part and/or external circuits.

In 50Ω systems, signal response is reasonably flat up

to 250MHz (see Typical Operating Characteristics ).

Above 20MHz, the on response has several minor

peaks that are highly layout dependent. The problem is

not in turning the switch on; it’s in turning it off. The off-

state switch acts like a capacitor and passes higher fre-

quencies with less attenuation. At 10MHz, off isolation is

about -48dB in 50Ω systems, decreasing (approximate-

ly 20dB per decade) as frequency increases. Higher cir-

cuit impedances also cause off isolation to decrease.

Off isolation is about 3dB above that of a bare IC sock-

et, and is due entirely to capacitive coupling.

High-Frequency Performance

FUNCTION

Logic-Level Thresholds

MAX4516EUK+T Maxim Integrated Products, MAX4516EUK+T Datasheet - Page 5

MAX4516EUK+T

Specifications of MAX4516EUK+T

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