MAX962ESA+ - Maxim Integrated - Datasheet.Directory

General Description

The MAX961–MAX964/MAX997/MAX999 are low-power,

ultra-high-speed comparators with internal hysteresis. These

devices are optimized for single +3V or +5V operation. The

input common-mode range extends 100mV Beyond-the-

Rails™, and the outputs can sink or source 4mA to within

0.52V of GND and VCC. Propagation delay is 4.5ns (5mV

overdrive), while supply current is 5mA per comparator.

The MAX961/MAX963/MAX964 and MAX997 have a

shutdown mode in which they consume only 270μA sup-

ply current per comparator. The MAX961/MAX963 pro-

vide complementary outputs and a latch-enable feature.

Latch enable allows the user to hold a valid comparator

output. The MAX999 is available in a tiny 5-pin SOT23

package. The single MAX961/MAX997 and dual MAX962

are available in space-saving 8-pin μMAX® packages.

Applications

●Single 3V/5V Systems

●Portable/Battery-Powered Systems

●Threshold Detectors/Discriminators

●GPS Receivers

●Line Receivers

●Zero-Crossing Detectors

●High-Speed Sampling Circuits

Features

●Ultra-Fast, 4.5ns Propagation Delay

●Ideal for +3V and +5V Single-Supply Applications

●Beyond-the-Rails Input Voltage Range

●Low, 5mA Supply Current (MAX997/MAX999)

●3.5mV Internal Hysteresis for Clean Switching

●Output Latch (MAX961/MAX963)

●TTL/CMOS-Compatible Outputs

●Shutdown Mode

(MAX961/MAX963/MAX964/MAX997)

●Available in Space-Saving Packages:

• 5-Pin SOT23 (MAX999)

• 8-Pin μMAX (MAX961/MAX962/MAX997)

• 16-Pin QSOP (MAX964)

Beyond-the-Rails is a trademark and μMAX is a registered

trademark of Maxim Integrated Products, Inc. Pin Configurations continued at end of data sheet.

19-1129; Rev 7; 9/14

Note: All E grade devices are specified over the -40°C to

+85°C operating temperature range. MAX999AAUK is specified

over the -40°C to +125°C operating temperature range.

+Denotes a lead(Pb)-free/RoHS-compliant package.

PART PIN-PACKAGE TOP MARK

MAX961ESA 8 SO —

MAX961EUA-T 8 µMAX —

MAX962ESA 8 SO —

MAX962EUA-T 8 µMAX —

MAX963ESD 14 SO —

MAX964ESE 16 Narrow SO —

MAX964EEE 16 QSOP —

MAX997ESA 8 SO —

MAX997EUA-T 8 µMAX —

MAX999AAUK+T 5 SOT23 +AFEI

MAX999EUK-T 5 SOT23 ACAB

PART

NO. OF

COMPARATORS

COMPLEMENTARY

OUTPUT

SHUTDOWN

LATCH

ENABLE

PIN-PACKAGE

MAX961 1 Yes Ye s Yes 8 SO/μMAX

MAX962 2 No No No 8 SO/μMAX

MAX963 2 Yes Ye s Yes 14 SO

MAX964 4 No Yes No 16 SO/QSOP

MAX997 1 No Yes No 8 SO/μMAX

MAX999 1 No No No 5 SOT23

GND

IN-IN+

1 5

TOP VIEW

VCC

MAX999

SOT23

3 4

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

Selector Guide

Pin Congurations

Ordering Information

Supply Voltage, VCC to GND ..................................-0.3V to +6V

All Other Pins ........................................... -0.3V to (VCC + 0.3V)

Current into Input Pins .....................................................±20mA

Duration of Output Short Circuit to GND or VCC ......Continuous

Continuous Power Dissipation (TA = +70°C)

5-Pin SOT23 (derate 7.1mW/°C above +70°C) .....571mW/°C

8-Pin SO (derate 5.88mW/°C above +70°C) ..........471mW/°C

8-Pin μMAX (derate 4.10mW/°C above +70°C) .....330mW/°C

14-Pin SO (derate 8.33mW/°C above +70°C) ........667mW/°C

16-Pin SO (derate 8.70mW/°C above +70°C) ........696mW/°C

16-Pin QSOP (derate 8.33mW/°C above +70°C) ..667mW/°C

Operating Temperature Range

MAX96_E/MAX99_E ...................................... -40°C to +85°C

MAX999AAUK .............................................. -40°C to +125°C

Storage Temperature Range ............................ -65°C to +160°C

Lead Temperature (soldering, 10s) ................................. +300°C

(VCC = +2.7V to +5.5V, VCM = 0V, COUT = 5pF, VSHDN = 0V, VLE = 0V, unless otherwise noted. TMIN to TMAX is -40°C to +85°C for

all E grade devices. For MAX999AAUK only, TMIN to TMAX is -40°C to +125°C.) (Note 1)

PARAMETER SYMBOL CONDITIONS TA = +25ºC TMIN to TMAX UNITS

MIN TYP MAX MIN TYP MAX

Supply Voltage VCC Inferred by PSRR 2.7 5.5 2.7 5.5 V

Input Common-Mode

Voltage Range VCMR (Note 2) -0.1 VCC +

0.1 -0.1 VCC +

0.1 V

Input-Referred Trip Points VTRIP

VCM = -0.1V

or 5.1V,

VCC = 5V

(Note 3)

µMAX, SOT23 ±2.0 ±3.5 ±6.5

MAX999AAUK ±2.0 ±3.5 ±8.0

All other E

packages ±2.0 ±3.5 ±4.0

Input-Referred Hysteresis 3.5 mV

Input Offset Voltage VOS

VCM = -0.1V

or 5.1V,

VCC = 5V

(Note 4)

µMAX, SOT23 ±0.5 ±1.5 ±4.5

MAX999AAUK ±0.5 ±1.5 ±6.0

All other E

packages ±0.5 ±1.5 ±2.0

Input Bias Current IB

VIN+ = VIN-

= 0V or VCC,

VCC = 5V

µMAX, SOT23 ±15 ±30

µA

All other E

packages ±15 ±15

Differential Input Clamp

Voltage

VCC = 5.5V, VIN- = 0V,

IIN+ = 100µA 2.1 V

Input Capacitance 3 pF

Differential Input

Impedance RIND VCC = 5V 8 kΩ

Common-Mode Input

Impedance RINCM VCC = 5V 130 kΩ

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

Absolute Maximum Ratings

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these

or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect

device reliability.

Electrical Characteristics

(VCC = +2.7V to +5.5V, VCM = 0V, COUT = 5pF, VSHDN = 0V, VLE = 0V, unless otherwise noted. TMIN to TMAX is -40°C to +85°C for

all E grade devices. For MAX999AAUK only, TMIN to TMAX is -40°C to +125°C.) (Note 1)

PARAMETER SYMBOL CONDITIONS TA = +25ºC TMIN to TMAX UNITS

MIN TYP MAX MIN TYP MAX

Common-Mode Rejection

Ratio CMRR

VCC = 5V,

VCM = -0.1V

to 5.1V

(Note 5)

µMAX, SOT23 0.1 0.3 1.0

mV/V

All other E

packages 0.1 0.3 0.5

Power-Supply Rejection

Ratio PSRR VCM = 0V (Note 6) 0.05 0.3 0.3 mV/V

Output High Voltage VOH

ISOURCE =

4mA

E grade VCC -

0.52

VCC -

0.52 V

MAX999AAUK VCC -

0.52

VCC -

0.55

Output Low Voltage VOL

ISINK =

4mA

E grade 0.52 0.52 V

MAX999AAUK 0.52 0.55

Capacitive Slew Current VOUT = 1.4V, VCC = 2.7V 30 60 mA

Output Capacitance 4 pF

Supply Current per

Comparator ICC

MAX961/MAX963, VCC = 5V 7.2 11 11

MAX962/MAX964, VCC = 5V 5 8 9

MAX997/MAX999E, VCC = 5V 5 6.5 6.5

MAX999AAUK, VCC = 5V 5 6.5 7.0

Shutdown Supply Current

per Comparator ISHDN

MAX961/MAX963/MAX964/

MAX997, VCC = 5V 0.27 0.5 0.5 mA

Shutdown Output

Leakage Current

MAX961/MAX963/MAX964/

MAX997, VOUT = 5V and

VCC - 5V

1 20 µA

Rise/Fall Time tR, tFVCC = 5V 2.3 ns

Logic-Input High VIH

VCC/2

+ 0.4

VCC/2

+ 0.4 V

Logic-Input Low VIL

VCC/2

- 0.4

VCC/2

- 0.4 V

Logic-Input Current IIL, IIH VLOGIC = 0V or VCC ±15 ±30 µA

Propagation Delay tPD

5mV

overdrive

(Note 7)

E grade 4.5 7.0 8.5

MAX999AAUK 4.5 7.0 10

Differential Propagation

Delay tPD

Between any two channels

or outputs (Q/Q)0.3 ns

Propagation-Delay Skew tSKEW Between tPD- and tPD+ 0.3 ns

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

Electrical Characteristics (continued)

(VCC = +2.7V to +5.5V, VCM = 0V, COUT = 5pF, VSHDN = 0V, VLE = 0V, unless otherwise noted. TMIN to TMAX is -40°C to +85°C for

all E grade devices. For MAX999AAUK only, TMIN to TMAX is -40°C to +125°C.) (Note 1)

Note 1: The MAX961EUA/MAX962EUA/MAX997EUA/MAX999EUK are 100% production tested at TA = +25°C; all temperature

specifications are guaranteed by design.

Note 2: Inferred by CMRR. Either input can be driven to the absolute maximum limit without false output inversion, provided that the

other input is within the input voltage range.

Note 3: The input-referred trip points are the extremities of the differential input voltage required to make the comparator output

change state. The difference between the upper and lower trip points is equal to the width of the input-referred hysteresis

zone. (See Figure 1.)

Note 4: Input offset voltage is defined as the mean of the trip points.

Note 5: CMRR = (VOSL - VOSH) / 5.2V, where VOSL is the offset at VCM = -0.1V and VOSH is the offset at VCM = 5.1V.

Note 6: PSRR = (VOS2.7 - VOS5.5) / 2.8V, where VOS2.7 is the offset voltage at VCC = 2.7V, and VOS5.5 is the offset voltage at

VCC = 5.5V.

Note 7:

Propagation delay for these high-speed comparators is guaranteed by design characterization because it cannot be accurately

measured using automatic test equipment. A statistically significant sample of devices is characterized with a 200mV step and

100mV overdrive over the full temperature range. Propagation delay can be guaranteed by this characterization, since DC

tests ensure that all internal bias conditions are correct. For low overdrive conditions, VTRIP is added to the overdrive.

Note 8: Guaranteed by design.

PARAMETER SYMBOL CONDITIONS TA = +25ºC TMIN to TMAX UNITS

MIN TYP MAX MIN TYP MAX

Data-to-Latch Setup Time tSU MAX961/MAX963 (Note 8) 5 5 ns

Latch-to-Data Hold Time tHMAX961/MAX963 (Note 8) 5 5 ns

Latch Pulse Width tLPW MAX961/MAX963 (Note 8) 5 5 ns

Latch Propagation Delay tLPD MAX961/MAX963 (Note 8) 10 10 ns

Shutdown Time tOFF

Delay until output is high-Z

(> 10kΩ) 150 ns

Shutdown Disable Time tON Delay until output is valid 250 ns

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

Electrical Characteristics (continued)

(VCC = +3.0V, CLOAD = 5pF, 5mV of overdrive, TA = +25°C, unless otherwise noted.)

5.0

-40 85

TEMPERATURE (°C)

PROPAGATION DELAY (ns)

5.2

5.4

5.6

5.8

6.0

6.2

6.4

6.6

6.8

-20 0 60

MAX997toc0202

PROPAGATION DELAY

vs. TEMPERATURE

tPD+

tPD-

0 120

CAPACITIVE LOAD (pF)

6020 40 10080

MAX997toc03

PROPAGATION DELAY

vs. CAPACITIVE LOAD

PROPAGATION DELAY (ns)

tPD+

tPD-

2.5 3.5 4.5 5.5

SUPPLY VOLTAGE (V)

5.03.0 4.0 6.0

MAX997toc04

PROPAGATION DELAY

vs. SUPPLY VOLTAGE

5.0

PROPAGATION DELAY (ns)

5.5

6.0

tPD+

tPD-

1 10 100 1000 10,000

SOURCE CURRENT (µA)

MAX997toc05

OUTPUT HIGH VOLTAGE

vs. SOURCE CURRENT

(V)

2.50

2.55

2.60

2.65

2.70

2.80

2.75

TA = -40°C

TA = +25°C

TA = +85°C

1 10 100 1000 10,000

SINK CURRENT (µA)

MAX997toc06

OUTPUT LOW VOLTAGE

vs. SINK CURRENT

(V)

0.1

0.2

0.3

0.4

0.5

TA = -40°C

TA = +85°C

TA = +25°C

2 6

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

6.0

6.5

7.0

7.5

8.0

3 4

MAX997toc07A

MAX961/MAX963

SUPPLY CURRENT PER COMPARATOR

vs. SUPPLY VOLTAGE

TA = +85°C

TA = -40°C

TA = +25°C

0 10 20 30 40 50 60 70 80 90 100

INPUT OVERDRIVE (mV)

MAX997toc01

PROPAGATION DELAY

vs. INPUT OVERDRIVE

PROPAGATION DELAY (ns)

3.5

4.0

4.5

5.0

5.5

6.0

6.5

7.5

7.0

tPD-

tPD+

2 6

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

53 4

MAX997toc07B

MAX962/MAX964

SUPPLY CURRENT PER COMPARATOR

vs. SUPPLY VOLTAGE

TA = -40°C

TA = +85°C

TA = +25°C

2 6

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

53 4

MAX9997toc7C

MAX997/MAX999

SUPPLY CURRENT PER COMPARATOR

vs. SUPPLY VOLTAGE

TA = -40°C

TA = +85°C TA = +25°C

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

Maxim Integrated

│

www.maximintegrated.com

Typical Operating Characteristics

(VCC = +3.0V, CLOAD = 5pF, 5mV of overdrive, TA = +25°C, unless otherwise noted.)

-40 80

310

260

TEMPERATURE (°C)

SHUTDOWN SUPPLY CURRENT (µA)

160

110

-20 0 60

210

MAX997toc08

MAX961/MAX963/MAX964/MAX997

SHUTDOWN SUPPLY CURRENT

vs. TEMPERATURE

VCC = 5.0V

VCC = 2.7V

-3

-40 85

2VTRIP+

VTRIP-

VOS

TEMPERATURE (°C)

TRIP POINT / VOS (mV)

-1

-2

-20 0 60

MAX997toc09

VOLTAGE TRIP POINT/INPUT OFFSET

VOLTAGE vs. TEMPERATURE

2 6

SUPPLY VOLTAGE (V)

53 4

MAX997toc10

VOLTAGE TRIP POINT/INPUT OFFSET

VOLTAGE vs. SUPPLY VOLTAGE

-3

-4

TRIP POINT / VOS (mV)

-1

-2

VTRIP+

VOS

VTRIP-

-10123456

(V)

MAX997toc11

INPUT BIAS CURRENT (IB+, IB-)

vs. COMMON-MODE VOLTAGE

IB+, IB- (µA)

-6

-4

-2

-8

VCC = 5.0V

VIN = VOS

NEGATIVE

VALUES

REPRESENT

CURRENT

FLOWING INTO

THE DEVICE

TA = -40ºC

TA = +85ºC

TA = +25ºC

-0.5

-40 80

TEMPERATURE (ºC)

INPUT BIAS/OFFSET CURRENT (µA)

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

-20 0 60

MAX997toc12

INPUT BIAS CURRENT/INPUT OFFSET

CURRENT vs. TEMPERATURE

IOS

IB+

IB-

-40 80

140

120

TEMPERATURE (°C)

SHORT-CIRCUIT CURRENT (µA)

-20 0 60

100

MAX997toc13

SHORT-CIRCUIT OUTPUT CURRENT

vs. TEMPERATURE

OUTPUT SHORTED

TO GND (SOURCING)

OUTPUT SHORTED

TO VCC (SINKING)

MAX997toc14

50MHz RESPONSE

VOS

GND

5ns/div

OUTPUT

1V/div

INPUT

50mV/div

VIN = 100mVP-P

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

Maxim Integrated

│

www.maximintegrated.com

Typical Operating Characteristics (continued)

(VCC = +3.0V, CLOAD = 5pF, 5mV of overdrive, TA = +25°C, unless otherwise noted.)

PIN NAME FUNCTION

MAX997 MAX999 MAX961 MAX962 MAX963 MAX964

1, 5 — — — — — N.C. No Connection. Not internally connected.

2 4 2 2 1 1 IN-, INA- Comparator A Inverting Input

3 3 1 1 2 2 IN+, INA+ Comparator A Noninverting Input

— — 4 — 3, 5 — LE, LEA,

LEB

Latch-Enable Input. The output latches when

LE_ is high. The latch is transparent when LE_

is low.

4 2 5 5 4, 11 12 GND Ground

— — — — — 16 N.C. No Connection. Connect to GND to prevent

parasitic feedback.

— — — 4 6 3 INB- Comparator B Inverting Input

— — — 3 7 4 INB+ Comparator B Noninverting Input

— — — — — 5 INC- Comparator C Inverting Input

— — — — — 6 INC+ Comparator C Noninverting Input

— — — — — 7 IND- Comparator D Inverting Input

— — — — — 8 IND+ Comparator D Noninverting Input

8 — 3 — 8 9 SHDN Shutdown Input. The device shuts down when

SHDN is high.

— — — 6 9 14 QB Comparator B Output

— — — — — 11 QC Comparator C Output

— — — — — 10 QD Comparator D Output

— — — — 10 — QB Comparator B Complementary Output

7 5 8 8 12 13 VCC

Positive Supply Input (VCC to GND must be

≤5.5V)

6 1 6 7 13 15 Q, QA Comparator A TTL Output

— — 7 — 14 — Q, QA Comparator A Complementary Output

MAX997toc15

PROPAGATION DELAY (tPD+)

GND

5ns/div

OUTPUT

1V/div

INPUT

50mV/div

MAX997toc16

PROPAGATION DELAY (tPD-)

GND

5ns/div

OUTPUT

1V/div

INPUT

50mV/div

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

Typical Operating Characteristics (continued)

Pin Description

Detailed Description

The MAX961–MAX964/MAX997/MAX999 single-supply

comparators feature internal hysteresis, ultra-high-speed

operation, and low power consumption. Their outputs are

guaranteed to pull within 0.52V of either rail without exter-

nal pullup or pulldown circuitry. Beyond-the-Rails input

voltage range and low-voltage, single-supply operation

make these devices ideal for portable equipment. These

comparators all interface directly to CMOS logic.

Timing

Most high-speed comparators oscillate in the linear region

because of noise or undesirable parasitic feedback. This

can occur when the voltage on one input is close to or

equal to the voltage on the other input. These devices

have a small amount of internal hysteresis to counter

parasitic effects and noise.

The added hysteresis of the MAX961–MAX964/MAX997/

MAX999 creates two trip points: one for the rising input

voltage and one for the falling input voltage (Figure 1).

The difference between the trip points is the hysteresis.

When the comparator’s input voltages are equal, the hys-

teresis effectively causes one comparator input voltage to

move quickly past the other, thus taking the input out of

the region where oscillation occurs. Standard compara-

tors require hysteresis to be added with external resistors.

The fixed internal hysteresis eliminates these resistors.

The MAX961/MAX963 include internal latches that allow

storage of comparison results. LE has a high input

impedance. If LE is low, the latch is transparent (i.e., the

comparator operates as though the latch is not present).

The comparator’s output state is stored when LE is pulled

high. All timing constraints must be met when using the

latch function (Figure 2).

Input Stage Circuitry

The MAX961–MAX964/MAX997/MAX999 include internal

protection circuitry that prevents damage to the preci-

sion input stage from large differential input voltages.

This protection circuitry consists of two groups of three

front-to-back diodes between IN+ and IN-, as well as two

200Ω resistors (Figure 3). The diodes limit the differential

voltage applied to the comparator’s internal circuitry to no

more than 3VF, where VF is the diode’s forward-voltage

drop (about 0.7V at +25°C).

Figure 1. Input and Output Waveforms, Noninverting Input Varied

QVOL

VOH

VTRIP+

VHYST

VTRIP-

VOL

VOH

VTRIP+ + VTRIP-

VOS =

VIN- = 0V

VIN+

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

For a large differential input voltage (exceeding 3VF), this

protection circuitry increases the input bias current at IN+

(source) and IN- (sink).

(IN IN ) 3V

Input current

2 200

+− − −

Input currents with large differential input voltages should

not be confused with input bias currents (IB). As long as

the differential input voltage is less than 3VF, this input

current is less than 2IB.

The input circuitry allows the MAX961–MAX964/MAX997/

MAX999’s input common-mode range to extend 100mV

beyond both power-supply rails. The output remains in

the correct logic state if one or both inputs are within the

common-mode range. Taking either input outside the

common-mode range causes the input to saturate and the

propagation delay to increase.

Figure 2. MAX961/MAX963 Timing Diagram

Figure 3. Input Stage Circuitry

tSU

tLPW

VCC

VOS

DIFFERENTIAL

INPUT

VOLTAGE

VOL

VOH

tLPD

tPD

tSKEW

VCC

MAX961–MAX964

MAX997

MAX999

IN+

200ΩTO INTERNAL

CIRCUITRY

IN-

200Ω

TO INTERNAL

CIRCUITRY

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

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│

Output Stage Circuitry

The MAX961–MAX964/MAX997/MAX999 contain a cur-

rent-driven output stage, as shown in Figure 4. During an

output transition, ISOURCE or ISINK is pushed or pulled to

the output pin. The output source or sink current is high

during the transition, creating a rapid slew rate. Once the

output voltage reaches VOH or VOL, the source or sink

current decreases to a small value, capable of maintain-

ing the VOH or VOL in static condition. This decrease in

current conserves power after an output transition has

occurred.

One consequence of a current-driven output stage is a

linear dependence between the slew rate and the load

capacitance. A heavy capacitive load slows down the volt-

age output transition.

Shutdown Mode

When SHDN is high, the MAX961/MAX963/MAX964/

MAX997 shut down. When shut down, the supply current

drops to 270μA per comparator, and the outputs become

high impedance. SHDN has a high input impedance.

Connect SHDN to GND for normal operation. Exit shut-

down with LE low; otherwise, the output is indeterminate.

Applications Information

Circuit Layout and Bypassing

The MAX961–MAX964/MAX997/MAX999’s high band-

width requires a high-speed layout. Follow these layout

guidelines:

1) Use a PCB with a good, unbroken, low-inductance

ground plane.

2) Place a decoupling capacitor (a 0.1μF ceramic sur-

face-mount capacitor is a good choice) as close to

VCC as possible.

3) On the inputs and outputs, keep lead lengths short to

avoid unwanted parasitic feedback around the com-

parators. Keep inputs away from outputs. Keep imped-

ance between the inputs low.

4) Solder the device directly to the printed circuit board

rather than using a socket.

5) Refer to Figure 5 for a recommended circuit layout.

6) For slow-moving input signals, take care to prevent

parasitic feedback. A small capacitor (1000pF or less)

placed between the inputs can help eliminate oscil-

lations in the transition region. This capacitor causes

negligible degradation to tPD when the source imped-

ance is low.

Figure 4. Output Stage Circuitry Figure 5. MAX961 PCB Layout

MAX961–MAX964

MAX997

MAX999

ISOURCE

Q, Q

VCC

GND

ISINK

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

www.maximintegrated.com Maxim Integrated

│

SO/MAX

INB+

GND

INB-

VCC

INA-

INA+

MAX962

SO/MAX

IN+

N.C.

GND

7VCC

SHDN

IN-

N.C.

MAX997

SO/QSOP

INA- N.C.

VCC

GND

SHDN

MAX964

INA+

INB-

INC+

INB+

INC-

IND-

IND+

VCC

GNDGND

LEA

INA+

INA-

MAX963

SHDNINB+

INB-

LEB

SHDN

GND

VCC

IN-

IN+

MAX961

SO/MAX

TOP VIEW

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

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Pin Congurations

Chip Information

MAX961/MAX962 TRANSISTOR COUNT: 286

MAX963/MAX964 TRANSISTOR COUNT: 607

MAX997/MAX999 TRANSISTOR COUNT: 142

PACKAGE TYPE PACKAGE CODE DOCUMENT NO. LAND PATTERN NO.

5 SOT23 U5+1 21-0057 90-0174

8 SO S8-2 21-0041 90-0096

8 µMAX U8-1 21-0036 90-0092

14 SO S14-1 21-0041 90-0112

16 SO S16-1 21-0041 90-0097

16 QSOP E16-1 21-0055 90-0167

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

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Package Information

For the latest package outline information and land patterns (footprints), go to www.maximintegrated.com/packages. Note that a “+”,

“#”, or “-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing

pertains to the package regardless of RoHS status.

REVISION

NUMBER

REVISION

DATE DESCRIPTION PAGES

CHANGED

0 9/96 Initial release —

1 12/96 Added 8-pin µMAX packages. Correct minor errors. 1, 2, 3

2 3/97 Added dual and quad MAX963/MAX964 packages. 1, 2, 3

3 7/97 Added new MAX997 and MAX999 parts. 1, 2, 3

4 3/99 New wafer fab/process change to CB20. Update specications and TOCs. 2, 3, 4, 5, 6

5 2/07 Added new Current into Input Pins in the Absolute Maximum Ratings. 2

6 12/08 Added new MAX999AAUK part and specications. 1, 2, 3

7 9/14 Removed automotive reference from Revision History. 13

Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses

are implied. Maxim Integrated reserves the right to change the circuitry and specications without notice at any time. The parametric values (min and max limits)

shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.

Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.

MAX961–MAX964/

MAX997/MAX999

Single/Dual/Quad, Ultra-High-Speed, +3V/+5V,

Beyond-the-Rails Comparators

│

Revision History

For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com.