MAXIM MAX4621, MAX4622, MAX4623 Technical data

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General Description

The MAX4621/MAX4622/MAX4623 are precision, dual,
high-speed analog switches. The single-pole/single­throw (SPST) MAX4621 and double-pole/single-throw
(DPST) MAX4623 dual switches are normally open
(NO). The single-pole/double-throw (SPDT) MAX4622
has two normally closed (NC) and two NO poles. All
three parts offer low 5Ω on-resistance guaranteed to
match to within 0.5Ω between channels and to remain
flat over the full analog signal range (∆0.5Ω max). They
also offer low leakage (<500pA at +25°C, <5nA at
+85°C) and fast switching times (turn-on time <250ns,
turn-off time <200ns).

These analog switches are ideal in low-distortion appli­cations and are the preferred solution over mechanical
relays in automatic test equipment or applications
where current switching is required. They have low
power requirements, use less board space, and are more
reliable than mechanical relays.

The MAX4621/MAX4622/MAX4623 are pin-compatible
replacements for the DG401/DG403/DG405, respective­ly, offering improved overall performance. These mono­lithic switches operate from a single positive supply
(+4.5V to +36V) or with bipolar supplies (±4.5V to ±18V)
while retaining CMOS-logic input compatibility.

Features

♦ Low On-Resistance: 3Ω (typ), 5Ω (max)
♦ Guaranteed RONMatch Between Channels

(0.5Ω max)

♦ Guaranteed Break-Before-Make Operation

(MAX4622)

♦ Guaranteed Off-Channel Leakage <5nA at +85°C
♦ Single-Supply Operation (+4.5V to +36V)

Bipolar-Supply Operation (±4.5V to ±18V)

♦ TTL/CMOS-Logic Compatible
♦ Rail-to-Rail®Analog Signal Handling Capability
♦ Pin Compatible with DG401/DG403/DG405

Applications

Reed Relay Replacement Military Radios
Test Equipment PBX, PABX Systems
Communication Systems Audio-Signal Routing
Data-Acquisition Systems Avionics

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

________________________________________________________________

Maxim Integrated Products

1

19-1497; Rev 0; 8/99

PART

MAX4621CSE

MAX4621CPE 0°C to +70°C

0°C to +70°C

TEMP. RANGE PIN-PACKAGE

16 Narrow SO
16 Plastic DIP

Ordering Information continued at end of data sheet.

Pin Configurations/Functional Diagrams/Truth Tables

Ordering Information

Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.

TOP VIEW

COM1

N.C.

N.C.

N.C.

N.C.

N.C.

N.C.

COM2

1

2

3

4

5

MAX4621

6

7

8

SO/DIP

MAX4621

LOGIC SWITCH

0
1

OFF

ON

16

15

14

13

12

11

10

NO1

IN1

V-

GND

V

L

V+

IN2

NO2

9

COM1

N.C.

COM3

NC3

NC4

COM4

N.C.

COM2

1

2

3

4

5

6

7

8

MAX4622

16

15

14

13

12

11

10

NO1

IN1

V-

GND

V

L

V+

IN2

NO2

9

SO/DIP

MAX4622

LOGIC SWITCHES 1, 2

0
1

OFF
ON

SWITCHES 3, 4

ON

OFF

COM1

N.C.

COM3

NO3

NO4

COM4

N.C.

COM2

1

2

3

4

5

6

7

8

MAX4623

SO/DIP

MAX4623

LOGIC SWITCH

0
1

OFF

ON

16

15

14

13

12

11

10

NO1

IN1

V-

GND

V

L

V+

IN2

NO2

9

SWITCHES SHOWN FOR LOGIC "0" INPUT

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

2 _______________________________________________________________________________________

ABSOLUTE MAXIMUM RATINGS

ELECTRICAL CHARACTERISTICS—Dual Supplies

(V+ = +15V, V- = -15V, VL= +5V, GND = 0, V

INH

= +2.4V, V

INL

= +0.8V, TA= T

MIN

to T

MAX

, unless otherwise noted. Typical values

are at T

A

= +25°C.) (Note 2)

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.

(Voltages Referenced to GND)

V+ to GND..............................................................-0.3V to +44V

V- to GND ...............................................................+0.3V to -44V

V+ to V-...................................................................-0.3V to +44V

V

L

to GND.....................................................-0.3V to (V+ + 0.3V)

All Other Pins to GND (Note 1) ........... (V- - 0.3V) to (V+ + 0.3V)

Continuous Current (COM_, NO_, NC_) ........................±100mA

Peak Current (COM_, NO_, NC_)

(pulsed at 1ms, 10% duty cycle) ............................... ±300mA

Continuous Power Dissipation (T

A

= +70°C)

Narrow SO (derate 8.70mW/°C above +70°C) .............696mW

Narrow DIP (derate 10.53mW/°C above +70°C) ..........842mW

Operating Temperature Ranges

MAX462_C_ _ ......................................................0°C to +70°C

MAX462_E_ _....................................................-40°C to +85°C

Storage Temperature Range .............................-65°C to +150°C

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

CONDITIONS

35

VV- V+

V

COM_

,

V

NO_

,

V

NC_

Input Voltage Range
(Note 3)

UNITSMIN TYP MAXSYMBOLPARAMETER

Note 1: Signals on NO_, NC_, or COM_ exceeding V+ or V- are clamped by internal diodes. Limit forward-diode current to maxi-

mum current rating.

T

A

= +25°C

I

COM_

= 10mA,

V

NO_

or V

NC_

= ±10V

Ω

7

R

ON

On-Resistance

TA= T

MIN

to T

MAX

0.25 0.5TA= +25°C

I

COM_

= 10mA,

V

NO_

or V

NC_

= ±10V

Ω

0.7

∆R

ON

On-Resistance Match
Between Channels
(Notes 3, 4)

TA= T

MIN

to T

MAX

-0.5 0.01 0.5TA= +25°C

0.2 0.5

V

NO_

or V

NC_

= ±10V,

V

COM_

= –+10V

nA

TA= +25°C

I

COM_

= 10mA;

V

NO_

or V

NC_

= -5V,

0, 5V

Ω

0.7

R

FLAT(ON)

On-Resistance Flatness
(Notes 3, 5)

TA= T

MIN

to T

MAX

-5 5

I

NO_

, I

NC_

Off-Leakage Current
(NO_ or NC_) (Note 6)

TA= T

MIN

to T

MAX

-1 0.02 1TA= +25°C

-0.5 0.01 0.5

V

COM_

= ±10V,

V

NO_

or V

NC_

= –+10V

or floating

nA

TA= +25°C

V

COM_

= ±10V,

V

NO_

or V

NC_

= –+10V

nA

-5 5

I

COM_(OFF)

COM_ Off-Leakage Current
(Note 6)

TA= T

MIN

to T

MAX

-10 10

I

COM_(ON)

COM_ On-Leakage Current
(Note 6)

TA= T

MIN

to T

MAX

V

INL

Logic Input Voltage Low V

2.4 V

0.8

V

INH

Logic Input Voltage High

V

IN_

= 0.8V -0.5 0.001 0.5 µAI

INL

Input Current with Input
Voltage Low

V

IN_

= 2.4V -0.5 0.001 0.5 µAI

INH

Input Current with Input
Voltage High

ANALOG SWITCH

LOGIC INPUT

MAX4621/MAX4622/MAX4623

Dual, 5

Ω

Analog Switches

_______________________________________________________________________________________ 3

ELECTRICAL CHARACTERISTICS—Dual Supplies (continued)

(V+ = +15V, V- = -15V, VL= +5V, GND = 0, V

INH

= +2.4V, V

INL

= +0.8V, TA= T

MIN

to T

MAX

, unless otherwise noted. Typical values

are at T

A

= +25°C.) (Note 2)

-0.5 0.001 0.5TA= +25°C

V

IN_

= 0 or 5V µA

V

COM_

= ±10V, Figure 3, TA= +25°C

V

COM_

= ±10V,

Figure 2

V

COM_

= ±10V,

Figure 2

TA= +25°C

CONDITIONS

-5 5

I-Negative Supply Current

TA= T

MIN

to T

MAX

-0.5 0.001 0.5TA= +25°C

V

IN_

= 0 or 5V µA

-5 5

I

L

Logic Supply Current

TA= T

MIN

to T

MAX

525

TA= +25°C 90 200

nst

OFF

nst

D

Break-Before-Make Time
Delay (MAX4622 only)

Turn-Off Time

-0.5 0.001 0.5

V±4.5 ±20.0Power-Supply Range

120 250

nst

ON

Turn-On Time

UNITSMIN TYP MAXSYMBOLPARAMETER

TA= +25°C

V

IN_

= 0 or 5V µA

-5 5

I+Positive Supply Current

TA= T

MIN

to T

MAX

-0.5 0.001 0.5TA= +25°C

V

IN_

= 0 or 5V µA

-5 5

I

GND

Ground Current

TA= T

MIN

to T

MAX

CL = 1.0nF, V

GEN

= 0, R

GEN

= 0, Figure 4,

TA= +25°C

480 pCQCharge Injection

RL= 50Ω, f = 1MHz, Figure 5, TA= +25°CV

ISO

Off-Isolation (Note 7) dB

f = 1MHz, Figure 7, TA= +25°C
f = 1MHz, Figure 8, TA= +25°CC

COM

On-Capacitance pF

34 pF

-62

150

C

COM

COM_ Off-Capacitance

TA= T

MIN

to T

MAX

TA= T

MIN

to T

MAX

325

275

f = 1MHz, Figure 7, TA= +25°CC

OFF

NC_ or NO_ Capacitance pF34

RL= 50Ω, f = 1MHz, Figure 6, TA= +25°CV

CT

Crosstalk (Note 8) dB-60

POWER SUPPLY

SWITCH DYNAMIC CHARACTERISTICS

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

4 _______________________________________________________________________________________

ELECTRICAL CHARACTERISTICS—Single Supply

(V+ = +12V, V- = 0, VL= +5V, GND = 0, V

INH

= +2.4V, V

INL

= +0.8V, TA= T

MIN

to T

MAX

, unless otherwise noted. Typical values are

T

A

= +25°C.) (Note 2)

-0.5 0.01 0.5TA= +25°C

0.9 1.3

0.2 0.5

V

COM_

= 1V, 10V;

V

NO_

or V

NC_

= 10V, 1V

nA

I

COM_

= 10mA; V

NO_

or V

NC_

= 3V, 6V, 9V;

TA= +25°C

ΩR

FLAT(ON)

V

IN_

= 2.4V

V

INL

Logic Input Voltage Low V

CONDITIONS

On-Resistance Flatness
(Notes 3, 5)

-5 5

I

NO_(OFF)

,

I

NC_(OFF)

NO_ or NC_ Off-Leakage
Current (Notes 6, 9)

TA= T

MIN

to T

MAX

-1 0.02 1TA= +25°C

-0.5 0.01 0.5

V

COM_

= 10V, 1V;

V

NO_

or V

NC_

= 10V,

1V, or floating

nA

TA= +25°C

V

COM_

= 10V, 1V;

V

NO_

or V

NC_

= 1V, 10V

nA

-5 5

I

COM_(OFF)

COM_ Off-Leakage Current
(Notes 6, 9)

TA= T

MIN

to T

MAX

-10 10

I

COM_(ON)

COM_ On-Leakage Current
(Notes 6, 9)

TA= T

MIN

to T

MAX

2.4

-0.5 0.001 0.5 µAI

INH

V

0.8

V

INH

Logic Input Voltage High

Input Current with Input
Voltage High

5.5 8

I

COM_

= 10mA, V

NO_

or V

NC_

= 10V,

TA= +25°C

Ω

VGND V+

V

COM_

,

V

NO_

,

V

NC_

Input Voltage Range
(Note 3)

UNITSMIN TYP MAXSYMBOLPARAMETER

TA= +25°C

I

COM_

= 10mA,

V

NO_

or V

NC_

= 10V

Ω

10

R

ON

On-Resistance

TA= T

MIN

to T

MAX

∆R

ON

On-Resistance Match
Between Channels
(Notes 3, 4)

V

IN_

= 0.8V -0.5 0.001 0.5 µAI

INL

Input Current with Input
Voltage Low

Power-Supply Range V4.5 36.0

-0.5 0.001 0.5

V

IN_

= 0 or 5VI+Positive Supply Current µA

-5 5

TA= +25°C
TA= T

MIN

to T

MAX

TA= +25°C
TA= T

MIN

to T

MAX

-0.5 0.001 0.5

V

IN_

= 0 or 5VI

L

Logic Supply Current µA

-5 5
TA= +25°C
TA= T

MIN

to T

MAX

-0.5 0.001 0.5

V

IN_

= 0 or 5VI

GND

Ground Current µA

-5 5

ANALOG SWITCH

LOGIC INPUT

POWER SUPPLY

MAX4621/MAX4622/MAX4623

Dual, 5

Ω

Analog Switches

_______________________________________________________________________________________ 5

Note 2: The algebraic convention, where the most negative value is a minimum and the most positive value is a maximum, is used

in this data sheet.

Note 3: Guaranteed by design.
Note 4: ∆R

ON

= R

ON_MAX

- R

ON_MIN

.

Note 5: Flatness is defined as the difference between the maximum and minimum values of on-resistance as measured over the

specified analog signal range.

Note 6: Leakage currents are 100% tested at the maximum-rated hot temperature and guaranteed by correlation at +25°C.
Note 7: Off-isolation = 20log

10[VCOM_ / (VNC_

or V

NO_

)]. V

COM_

= output, V

NC_

or V

NO_

= input to off switch.

Note 8: Between any two switches.
Note 9: Leakage testing for single-supply operation is guaranteed by testing with dual supplies.

ELECTRICAL CHARACTERISTICS—Single Supply (continued)

(V+ = +12V, V- = 0, VL= +5V, GND = 0, V

INH

= +2.4V, V

INL

= +0.8V, TA= T

MIN

to T

MAX

, unless otherwise noted. Typical values are

T

A

= +25°C.) (Note 2)

TA= T

MIN

to T

MAX

RL= 100Ω, CL= 35pF, Figure 3, TA= +25°C

V

COM_

= 10V, Figure 2

TA= T

MIN

to T

MAX

V

COM_

= 10V, Figure 2

TA= +25°C

RL= 50Ω, f = 1MHz, Figure 6V

CT

CONDITIONS

10 75

TA= +25°C 100 200

nst

OFF

ns

Crosstalk (Note 8)

t

D

Break-Before-Make Time
Delay (MAX4622 only)
(Note 3)

Turn-Off Time (Note 3)

475

300

dB-60

200 350

nst

ON

Turn-On Time (Note 3)

UNITSMIN TYP MAXSYMBOLPARAMETER

SWITCH DYNAMIC CHARACTERISTICS

CL = 1.0nF, V

GEN

= 0, R

GEN

= 0, Figure 4 45 pCQCharge Injection

Off-Isolation (Note 7) V

ISO

RL= 50Ω, f = 1MHz, Figure 5 -62 dB

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

6 _______________________________________________________________________________________

Typical Operating Characteristics

(TA = +25°C, unless otherwise noted.)

2.0

3.0

2.5

4.0

3.5

5.0

4.5

5.5

6.5

6.0

7.0

-20 -10 -5-15 0 5 10 15 20

ON-RESISTANCE

vs. V

COM

(DUAL SUPPLIES)

MAX4621/2/3-01

V

COM

(V)

R

ON

(Ω)

V+, V- = ±5V

I

COM

= 10mA

V+, V- = ±15V

V+, V- = ±20V

1.5

2.5

2.0

3.5

3.0

4.5

4.0

5.0

-15 -5 0-10 5 10 15

ON-RESISTANCE vs. V

COM

AND TEMPERATURE (DUAL SUPPLIES)

MAX4621/2/3-02

V

COM

(V)

R

ON

(Ω)

T

A

= +85°C

T

A

= +25°C

T

A

= -40°C

V+ = +15V, V- = -15V
I

COM

= 10mA

2

6

4

10

8

12

14

16

18

0693 1215182124

ON-RESISTANCE

vs. V

COM

(SINGLE SUPPLY)

MAX4621/2/3-03

V

COM

(V)

R

ON

(Ω)

V+ = 5V

V+ = 12V

V+ = 24V

I

COM

= 10mA

V- = GND

3.0

4.5

4.0

3.5

5.0

5.5

6.0

6.5

7.0

7.5

8.0

042681012

ON-RESISTANCE vs. V

COM

AND TEMPERATURE (SINGLE SUPPLY)

MAX4621/2/3-04

V

COM

(V)

R

ON

(Ω)

TA = +85°C

TA = +25°C

TA = -40°C

I

COM

= 10mA

V+ = 12V, V- = GND

0.01

0.1

10k

10

1

100

1k

0.001

-40 -10 5 20-25 35 50 958065

SUPPLY CURRENT

vs. TEMPERATURE

MAX4621/2/3-07

TEMPERATURE (°C)

I+, I- (nA)

I-

V+ = +15V

V- = -15V

I+

10

1

0.1

100

1k

10k

-40 -10 5 20-25 35 50 958065

ON/OFF-LEAKAGE CURRENT

vs. TEMPERATURE

MAX4621/2/3-05

TEMPERATURE (°C)

LEAKAGE (pA)

ON-LEAKAGE

OFF-LEAKAGE

V+ = +15V

V- = -15V

0.01

0

-100

100

-200

300

200

500

400

600

700

-15 -5-10 0 5 10 15

CHARGE INJECTION vs. V

COM

MAX4621/2/3-06

V

COM

(V)

Q (pC)

V+ = +15V
V- = -15V

V+ = +12V
V- = 0

-10

-100

0.1 100101

FREQUENCY RESPONSE

-70

-90

-30

-50

0

-60

-80

-20

-40

MAX4621/2/3-08

FREQUENCY (MHz)

LOSS (dB)

90

180

-720

-450

-630

-90

-270

-360

-540

0

-180

PHASE (DEGREES)

OFF-ISOLATION

ON-PHASE

ON-RESPONSE

V+ = +15V

V- = -15V

MAX4621/MAX4622/MAX4623

Dual, 5

Ω

Analog Switches

_______________________________________________________________________________________ 7

Pin Description

Applications Information

Operation with Supply Voltages

Other than ±15V

The MAX4621/MAX4622/MAX4623 switches operate with
±4.5V to ±18V bipolar supplies and a +4.5V to +36V sin­gle supply. In either case, analog signals ranging from
V+ to V- can be switched. The

Typical Operating

Characteristics

graphs show the typical on-resistance

variation with analog signal and supply voltage.

Overvoltage Protection

Proper power-supply sequencing is recommended for all
CMOS devices. It is important not to exceed the absolute
maximum ratings because stresses beyond the listed rat­ings may cause permanent damage to the devices.
Always sequence V+ on first, followed by VL, V-, and
logic inputs. If power-supply sequencing is not possible,
add two small signal diodes in series with the supply pins
and a Schottky diode between V+ and VL(Figure 1).
Adding diodes reduces the analog signal range to 1V
below V+ and 1V above V-, but low switch resistance and
low leakage characteristics are unaffected. The differ­ence between V+ and V- should not exceed +44V.

Negative Supply Voltage14

Ground13

Logic Supply-Voltage Input12

Positive Supply-Voltage Input11

Not internally connected2, 7

Switch Common Terminal1, 3, 6, 8

Negative Supply Voltage
Input

14

Ground13

Positive Supply-Voltage Input11

Not internally connected2, 7

Switch Common Terminal1, 3, 6, 8

Ground

14

Negative Supply Voltage
Input

13

Logic Supply-Voltage Input12

Positive Supply-Voltage Input11

Digital Logic Inputs10, 15

Switch Normally Open
Terminal

9, 16

Not internally connected2–7

Switch Common Terminal1, 8

FUNCTIONPIN

Figure 1. Overvoltage Protection Using Blocking Diodes

*INTERNAL PROTECTION DIODES

V-

GND

V

L

V+

N.C.

COM_

V-

GND

V+

N.C.

COM_

V-

GND

V

L

V+

IN2, IN1

NO2, NO1

N.C.

COM1,

COM2

NAME

NC_, NO_

Switch Normally Closed/Open
Terminal

4, 5, 9, 16

NO_

Switch Normally Open
Terminal

4, 5, 9, 16

V

L

Logic Supply-Voltage Input12

IN2, IN1 Digital Logic Inputs10, 15

IN2, IN1 Digital Logic Inputs10, 15

MAX4621

MAX4622

MAX4623

V+

V

L

NO_

V

g

*

*

V-

MAX4621
MAX4622
MAX4623

*

COM_

*

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

8 _______________________________________________________________________________________

Figure 2. Switching-Time Test Circuit

Figure 3. MAX4622 Break-Before-Make Test Circuit

Figure 4. Charge-Injection Test Circuit

MAX4621
MAX4622
MAX4623

V

= +10V

COM

FOR t

V

= -10V

COM

FOR t

ON

OFF

SWITCH

INPUT

LOGIC
INPUT

FOR LOAD CONDITIONS, SEE

+5V +15V

L

COM_

IN1

GND

0

REPEAT TEST FOR EACH SWITCH.

R

= 100Ω

V+

V+V

L

C

L

= 35pF

NC_

OR NO_

V-

V-

-15V

= V

V

O

Electrical Characteristics.

V

COM

O

R

L

RL = R

ON

CL INCLUDES FIXTURE AND STRAY CAPACITANCE.

+5V

= +10V

V

COM_

V

L

COM_

COM_

IN_

LOGIC

GND

INPUT

C

0

INCLUDES FIXTURE AND STRAY CAPACITANCE.

L

LOGIC 0 INPUT.

+15V

V-

-15V

V+

NO_

NC_

R

L2

MAX4622

V

O2

R

L

C

L

C

L2

= 100Ω
= 35pF

V

O1

R

L1

C

L1

LOGIC
INPUT

SWITCH
INPUT

SWITCH
OUTPUT

SWITCH
INPUT

LOGIC
INPUT

SWITCH
OUTPUT

SWITCH
OUTPUT

+3V

50%

tr < 20ns

< 20ns

t

f

0

t

0.9V

OFF

O

V

COM

V

O

0

t

ON

V

-V

ANA

O

LOGIC INPUT WAVEFORM IS INVERTED FOR
SWITCHES THAT HAVE THE OPPOSITE LOGIC
SENSE CONTROL.

+3V

50%

0

V

COM

V

O1

0.9V

O

0

V

COM

V

O2

0

t

D

t

0.9V

O

0.9V

O

D

+5V +15V

MAX4621

V

R

GEN

V

GEN

L

COM

GND

V+

NC_ OR NO_

V-

MAX4622
MAX4623

C

L

V

O

V

O

IN_

0 -15V

∆V

O

ON OFF ON

Q = (∆V

)(CL)

O

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

_______________________________________________________________________________________ 9

Figure 5. Off-Isolation

Figure 6. Crosstalk Test Circuit

Figure 8. Channel-Off Capacitance

Figure 7. Channel-On Capacitance

MAX4621
MAX4622

SIGNAL
GENERATOR

ANALYZER

MAX4623

MAX4621
MAX4622

SIGNAL
GENERATOR

ANALYZER

MAX4623

100Ω

0, 2.4V

100Ω

+15V +5V

C

V+

V

COM

NC_ OR
NO_

R

L

R

L

GND

+15V +5V

C

V+

COM_

IN_

NC_ OR NO_

GND

NC_ OR NO_

-15V

-15V

V

L

V-

V

L

COM_

V-

IN_

IN_

C

0, 2.4V

C

C

50Ω

0, 2.4V

C

FREQUENCY

TESTED

1MHz

OFF-ISOLATION = 20LOG

FREQUENCY

TESTED

1MHz

SIGNAL

GENERATOR

AUTOMATIC

SYNTHESIZER

V

SIGNAL

GENERATOR

AUTOMATIC

SYNTHESIZER

TRACKING SPECTRUM

V

COM

V

NC

NO

OR

ANALYZER

TRACKING SPECTRUM

ANALYZER

ANALYZER

ANALYZER

+15V +5V

MAX4621
MAX4622
MAX4623

CAPACITANCE

METER

COM_

V+

GND

-15V

CC

V

L

MAX4621
MAX4622
MAX4623

IN_

0, 2.4V

V-

C

CAPACITANCE

METER

+15V

V+

V+ V

COM_

NC_ OR
NO_

GND

+5V

-15V

CC

L

IN_

V-

0, 2.4V

C

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

10 ______________________________________________________________________________________

Ordering Information (continued) Chip Information

PART

MAX4621ESE
MAX4621EPE -40°C to +85°C

-40°C to +85°C

TEMP. RANGE PIN-PACKAGE

16 Narrow SO
16 Plastic DIP

Package Information

TRANSISTOR COUNT: 82

MAX4622CSE
MAX4622CPE 0°C to +70°C

0°C to +70°C 16 Narrow SO

16 Plastic DIP

MAX4622EPE -40°C to +85°C 16 Plastic DIP
MAX4623CSE

0°C to +70°C 16 Narrow SO

MAX4623CPE 0°C to +70°C 16 Plastic DIP

MAX4623EPE -40°C to +85°C 16 Plastic DIP

MAX4622ESE -40°C to +85°C 16 Narrow SO

MAX4623ESE -40°C to +85°C 16 Narrow SO

SOICN.EPS

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

______________________________________________________________________________________ 11

Package Information (continued)

PDIPN.EPS

MAX4621/MAX4622/MAX4623

Dual, 5ΩAnalog Switches

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.

12

____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600

© 1999 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.

12

____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600

© 1999 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.

NOTES