Analog Devices, Inc. 5962-9062701GA

EU RoHS

Not Compliant

ECCN (US)

3A001.a.2.c

SVHC

Yes

SVHC Exceeds Threshold

Yes

Automotive

No

PPAP

No

Manufacturer Type

Voltage Comparator

Number of Channels per Chip

1

Rail to Rail

No

Typical CMRR (dB)

94(Min)

Typical Response Time (us)

0.25(Max)

Typical Response Time Range (us)

0.05 to 0.5

Maximum Operating Supply Voltage (V)

±18

Maximum Input Offset Voltage (mV)

0.5@±15V

Typical Dual Supply Voltage (V)

±15

Maximum Dual Supply Voltage (V)

±18

Typical Voltage Gain (dB)

106.02

Typical Voltage Gain Range (dB)

90 to 110

Maximum Input Bias Current (uA)

0.025@±15V

Maximum Supply Current (mA)

4@15V/-2.5@-15V

Typical Output Current (mA)

50(Max)

Maximum Power Dissipation (mW)

200

Minimum Operating Temperature (°C)

-55

Maximum Operating Temperature (°C)

125

Supplier Temperature Grade

Military

Mounting

Through Hole

Package Height

4.7(Max)

PCB changed

8

Supplier Package

TO-5

Operating Temperature Classification

Military

Package Type

TO-5

Dual Supply Voltage (Typ)

±15(V)

Single Supply Voltage (Min)

Not Required(V)

Voltage Gain in dB

106.02(dB)

Power Supply Requirement

Dual

Operating Temp Range

-55C to 125C

Strobe Capability

YES

Number of Elements

1

Single Supply Voltage (Typ)

Not Required(V)

Rad Hardened

No

Input Offset Voltage

0.5(mV)

Dual Supply Voltage (Max)

±18(V)

Single Supply Voltage (Max)

Not Required(V)

Part Status

Parts can have many statuses as they progress through the configuration, analysis, review, and approval stages.

Obsolete

Pin Count

a count of all of the component leads (or pins)

8

Power Dissipation

the process by which an electronic or electrical device produces heat (energy loss or waste) as an undesirable derivative of its primary action.

200(W)

Common Mode Rejection Ratio

94(MIN)(dB)

Power Supply Type

There are three major kinds of power supplies: unregulated (also called brute force), linear regulated, and switching. The fourth type of power supply circuit called the ripple-regulated, is a hybrid between the “brute force” and “switching” designs, and merits a subsection to itself.

Dual

Supply Current

Supply current refers to the input current to an LDO regulator at no load, which flows inside the IC in order to operate. The power consumption of an LDO regulator can be calculated as. (Input Voltage) x (Consumption current of IC itself) + (Input Voltage - Output Voltage) x (Load current)

4(mA)

Diameter

9.4(Max)