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MAX9951/MAX9952

Dual Per-Pin Parametric

Measurement Units

General Description

The MAX9951/MAX9952 dual parametric measurement

units (PMUs) feature a small package size, wide force and

measurement range, and high accuracy, making the

devices ideal for automatic test equipment (ATE) and other

instrumentation that requires a PMU per pin or per site.

The MAX9951/MAX9952 force or measure voltages in the

-2V to +7V through -7V to +13V ranges, dependent upon

the supply voltage (V

and V

). The devices handle

supply voltages of up to +30V (V

to V

) and a 20V

device-under-test (DUT) voltage swing at full current. The

MAX9951/MAX9952 also force or measure currents up to

±64mA with a lowest full-scale range of ±2µA. Integrated

support circuitry facilitates use of an external buffer ampli-

fier for current ranges greater than ±64mA.

A voltage proportional to the measured output voltage

or current is provided at the MSR_ output. Integrated

comparators, with externally set voltage thresholds,

provide detection for both voltage and current levels.

The MSR_ and comparator outputs can be placed in a

high-impedance state. Separate FORCE and SENSE

connections are short-circuit protected for voltages

from (V

- 0.3V) to (V

+ 0.3V). The FORCE output

also features a low-leakage, high-impedance state.

Integrated voltage clamps limit the force output to lev-

els set externally. The force-current or the measure-cur-

rent voltage can be offset -0.2V to +4.4V (IOS). This

feature allows for the centering of the control or mea-

sured signal within the external DAC or ADC range.

The MAX9951D/MAX9952D feature an integrated 10kΩ

force-sense resistor between FORCE_ and SENSE_.

The MAX9951F/MAX9952F have no internal force-sense

resistor. These devices are available in a 64-pin, 10mm

x 10mm, 0.5mm pitch TQFP package with an exposed

8mm x 8mm die pad on the top (MAX9951) or the bot-

tom (MAX9952) of the package for efficient heat

removal. The exposed pad is internally connected to

. The MAX9951/MAX9952 are specified over the

commercial 0°C to +70°C temperature range.

Features

Force Voltage/Measure Current (FVMI)

Force Current/Measure Voltage (FIMV)

Force Voltage/Measure Voltage (FVMV)

Force Current/Measure Current (FIMI)

Force Nothing/Measure Voltage (FNMV)

Force Nothing/Measure Current (FNMI,

Range E Only)

Termination/Measure Current

Termination/Measure Voltage

Five Programmable Current Ranges

±2µA

±20µA

±200µA

±2mA

±64mA

-2V to +7V Through -7V to +13V Input-Voltage

Range

Force-Current/Measure-Current Adjustable-

Voltage Offset (IOS)

Programmable Voltage Clamps at Force Output

Low-Leakage, High-Impedance Measure, and

Force States

3-Wire Serial Interface

Low 6mA (max) Quiescent Current per PMU

Ordering Information

PART

MAX9951DCCB+D

MAX9951DCCB+TD

MAX9951DCCB-D

MAX9951DCCB-TD

MAX9951FCCB+

MAX9951FCCB+T

MAX9951FCCB-D

MAX9951FCCB-TD

MAX9952DCCB+

MAX9952DCCB+T

MAX9952DCCB-D

MAX9952DCCB-TD

MAX9952FCCB+

MAX9952FCCB+T

MAX9952FCCB-D

TEMP RANGE

0°C to +70°C

PIN-PACKAGE

64 TQFP-EPR*

64 TQFP-EP**

Applications

Memory Testers

VLSI Testers

System-on-a-Chip Testers

Structural Testers

Pin Configurations and Selector Guide appear at end of

data sheet.

MAX9952FCCB-TD

0°C to +70°C

64 TQFP-EP**

+Denotes

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

-Denotes

a package containing lead(Pb).

*EPR

= Top side exposed pad.

D = Dry pack.

**EP

= Exposed pad.

T = Tape and reel.

For pricing, delivery, and ordering information, please contact Maxim Direct

at 1-888-629-4642, or visit Maxim’s website at www.maximintegrated.com.

19-3247; Rev 6; 8/13

MAX9951/MAX9952

Dual Per-Pin Parametric

Measurement Units

ABSOLUTE MAXIMUM RATINGS

MAX9951_CCB (Note 1) ...........................................+2°C/W

to AGND .......................................................................+20V

to AGND.........................................................................-15V

MAX9952_CCB (Note 1) .........................................+23°C/W

to V

...........................................................................+32V

MAX9952_CCB (Note 1) ...........................................+2°C/W

to AGND............................................................................+6V

Junction Temperature ......................................................+150°C

AGND to DGND.....................................................-0.5V to +0.5V

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

Digital Inputs/Outputs ..................................-0.3V to (V

+ 0.3V)

Operating Temperature Range (commercial) ........0°C to +70°C

All Other Pins to AGND ....................(V

- 0.3V) to (V

+ 0.3V)

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

Continuous Power Dissipation (T

= +70°C)

Soldering Temperature (reflow)

MAX9951_CCB (derate 125mW/°C above +70°C) ...10,000mW

Lead(Pb)-Free Packages.............................................+260°C

MAX9952_CCB (derate 43.5mW/°C above +70°C) .....3478mW

Packages Containing Lead(Pb)......................................+240°C

MAX9951_CCB (Note 1) ...........................................+8°C/W

Note 1:

Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four-layer

board. For detailed information on package thermal considerations, refer to

www.maximintegrated.com/thermal-tutorial.

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.

DC ELECTRICAL CHARACTERISTICS

= +12V, V

= -7V, V

= +3.3V, T

= +25°C, unless otherwise noted. Specifications at T

= T

MIN

and T

= T

MAX

are guaranteed

by design and characterization. Typical values are at T

= +25°C, unless otherwise noted.) (Note 2)

PARAMETER

FORCE VOLTAGE

Force Input Voltage

Range

Forced Voltage

Input Bias Current

Forced-Voltage Offset

Forced-Voltage-Offset

Temperature Coefficient

Forced-Voltage Gain

Error

Forced-Voltage-Gain

Temperature Coefficient

Forced-Voltage Linearity

Error

MEASURE CURRENT

Measure-Current Offset

Measure-Current-Offset

Temperature Coefficient

Measure-Current Gain

Error

Measure-Current-Gain

Temperature Coefficient

Linearity Error

SYMBOL

IN0_

IN1_

DUT

CONDITIONS

MIN

TYP

MAX

UNITS

+ 2.5

DUT current at full scale

DUT current = 0A

= +12V, V

= -7V

= +18V, V

= -12V

-2

-7

+ 2.5

±1

-25

±100

- 2.5

+13

- 2.5

µA

FOS

+25

µV/°C

FGE

Nominal gain of +1

-1

0.005

±10

ppm/°C

FLER

Gain and offset errors calibrated out (Notes 3, 4)

-0.02

+0.02

%FSR

MOS

(Note 3)

-1

±20

%FSR

ppm/°C

MGE

(Note 5)

-1

±20

ppm/°C

MLER

Gain and offset errors calibrated out

(Notes 3, 4, 6)

-0.02

+0.02

%FSR

Maxim Integrated

MAX9951/MAX9952

Dual Per-Pin Parametric

Measurement Units

DC ELECTRICAL CHARACTERISTICS (continued)

= +12V, V

= -7V, V

= +3.3V, T

= +25°C, unless otherwise noted. Specifications at T

= T

MIN

and T

= T

MAX

are guaranteed

by design and characterization. Typical values are at T

= +25°C, unless otherwise noted.) (Note 2)

PARAMETER

Measure-Output-Voltage

Range Over Full-Current

Range

Current-Sense Amp

Offset-Voltage Input

Rejection of Output-

Measure Error Due to

Common-Mode Sense

Voltage

SYMBOL

IOS

= V

DUTGND

MSR_

IOS

= 4V + V

DUTGND

IOS

Relative to V

DUTGND

-0.2

+4.4

CONDITIONS

MIN

-4

TYP

MAX

UNITS

CMVR

LER

(Notes 5 and 7)

+0.001

+0.007

%FSR/V

Range E, R_E = 500kΩ

Range D, R_D = 50kΩ

Measure-Current Range

Range C, R_C = 5kΩ

Range B, R_B = 500Ω

Range A, R_A = 15.6Ω

FORCE CURRENT

Input Voltage Range for

Setting Forced Current

Over Full Range

Current-Sense Amp

Offset-Voltage Input

IOS_ Input Bias Current

Forced-Current Offset

Forced-Current-Offset

Temperature Coefficient

Forced-Current Gain

Error

Forced-Current-Gain

Temperature Coefficient

Forced-Current Linearity

Error

Rejection of Output Error

Due to Common-Mode

Load Voltage

FLER

Gain and offset errors calibrated out

(Notes 3, 4, 6)

(Note 5)

(Note 3)

IN0_,

IN1_

IOS

= V

DUTGND

IOS

= 4V + V

DUTGND

Relative to V

DUTGND

-2

-20

-200

-2

-64

+20

+200

+64

µA

-4

-0.2

±1

-1

±20

-1

±20

-0.02

+4.4

µA

%FSR

ppm/°C

+0.02

%FSR

CMRI

OER

(Notes 5 and 7)

Range E, R_E = 500kΩ

Range D, R_D = 50kΩ

-2

-20

-200

-2

-64

+0.001

+0.007

+20

+200

+64

%FSR/V

µA

Forced-Current Range

Range C, R_C = 5kΩ

Range B, R_B = 500Ω

Range A, R_A = 15.6Ω

Maxim Integrated

MAX9951/MAX9952

Dual Per-Pin Parametric

Measurement Units

DC ELECTRICAL CHARACTERISTICS (continued)

= +12V, V

= -7V, V

= +3.3V, T

= +25°C, unless otherwise noted. Specifications at T

= T

MIN

and T

= T

MAX

are guaranteed

by design and characterization. Typical values are at T

= +25°C, unless otherwise noted.) (Note 2)

PARAMETER

MEASURE VOLTAGE

Measure-Voltage-Offset

Temperature Coefficient

Gain Error

Measure-Voltage-Gain

Temperature Coefficient

Measure-Voltage

Linearity Error

Measure-Output-Voltage

Range Over Full DUT

Voltage

FORCE OUTPUT

Off-State Leakage

Current

Short-Circuit Current

Limit

Force-to-Sense Resistor

SENSE INPUT

Input Voltage Range

Leakage Current

COMPARATOR INPUTS

Input Voltage Range

Offset Voltage

Input Bias Current

VOLTAGE CLAMPS

Input Control Voltage

Clamp Voltage

Accuracy

DIGITAL INPUTS

Input High Voltage

(Note 9)

Input Low Voltage

(Note 9)

Input Current

Input Capacitance

= 5V

= 3.3V

= 2.5V

= 5V or 3.3V

= 2.5V

±1

3.0

+3.5

+2.0

+1.7

+0.8

+0.7

µA

CLLO_

CLHI_

(Note 8)

+ 2.4

-100

- 2.4

+100

+ 2.5

-25

±1

- 2.5

+25

µA

F option only

+ 2.5

-1

- 2.5

LIM-

LIM+

D option only

-1

-92

+65

-65

+92

kΩ

MLER

Gain and offset errors calibrated out

(Notes 3, 4, 6)

DUT current at full scale

DUT current = 0A

= +12V, V

= -7V

= +18V, V

= -12V

-0.02

-2

-7

+ 2.5

MGER

Nominal gain of +1

-1

MOS

-25

±100

±0.005

±10

+0.02

+13

- 2.5

+25

µV/°C

ppm/°C

%FSR

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

MSR

Maxim Integrated

MAX9951/MAX9952

Dual Per-Pin Parametric

Measurement Units

DC ELECTRICAL CHARACTERISTICS (continued)

= +12V, V

= -7V, V

= +3.3V, T

= +25°C, unless otherwise noted. Specifications at T

= T

MIN

and T

= T

MAX

are guaranteed

by design and characterization. Typical values are at T

= +25°C, unless otherwise noted.) (Note 2)

PARAMETER

Output High Voltage

Output Low Voltage

High-Impedance-State

Leakage Current

High-Impedance-State

Output Capacitance

DIGITAL OUTPUTS

Output High Voltage

Output Low Voltage

POWER SUPPLY

Positive Supply

Negative Supply

Total Supply Voltage

Logic Supply

Positive Supply Current

Negative Supply Current

Logic Supply Current

Analog Ground Current

Digital Ground Current

Power-Supply Rejection

Ratio

AGND

DGND

PSRR

No load, clamps enabled

No load, all digital inputs at rails

No load, clamps enabled

No load, all digital inputs at rails

1MHz, measured at force output

60Hz, measured at force output

0.9

1.4

(Note 2)

+10

-15

+2.375

+12

-7

+18

-5

+30

+5.5

10.0

1.2

OUT

= 1mA, V

= +2.375V to +5.5V,

relative to DGND

OUT

= -1mA, V

= +2.375V to +5.5V,

relative to DGND

- 0.25

+0.2

SYMBOL

CONDITIONS

= +2.375V to +5.5V, R

PUP

= 1kΩ

= +2.375V to +5.5V, R

PUP

= 1kΩ

±1

6.0

MIN

- 0.2

+0.4

TYP

MAX

UNITS

µA

COMPARATOR OUTPUTS

- V

(Note 10)

Maxim Integrated