MAX5529GUA - Hytronics - Datasheet.Company

General Description

The MAX5527/MAX5528/MAX5529 linear-taper digital

potentiometers perform the same function as mechanical

potentiometers, replacing the mechanics with a simple

2-wire up/down digital interface. These digital poten-

tiometers provide an optional one-time programmable

feature that sets the power-on reset position of the wiper.

Once the wiper position is programmed, the 2-wire inter-

face can be disabled to prevent unwanted adjustment.

The MAX5527/MAX5528/MAX5529 provide an end-to-end

resistance of 100kΩ, 50kΩ, and 10kΩ, respectively. The

devices feature low temperature coefficients of 35ppm/°C

end-to-end and 5ppm/°C ratiometric. All devices offer 64

wiper positions and operate from a single +2.7V to +5.5V

supply. An ultra-low, 0.25µA (typ) standby supply current

saves power in battery-operated applications.

The MAX5527/MAX5528/MAX5529 are available in

3mm x 3mm, 8-pin TDFN and 5mm x 3mm, 8-pin

µMAX®packages. Each device is guaranteed over the

-40°C to +105°C temperature range.

Applications

Products Using One-Time Factory Calibration

Mechanical Potentiometer Replacements

Features

♦Wiper Position Stored After One-Time Fuse

Programming

♦64 Tap Positions

♦Wiper Position Programmed Through Simple

2-Wire Up/Down Interface

♦35ppm/°C End-to-End Temperature Coefficient

♦5ppm/°C Ratiometric Temperature Coefficient

♦ Ultra-Low 1.5µA (max) Static Supply Current

♦+2.7V to +5.5V Single-Supply Operation

♦10kΩ, 50kΩ, and 100kΩEnd-to-End Resistances

♦Tiny, 3mm x 3mm, 8-Pin TDFN and 5mm x 3mm,

8-Pin µMAX Packages

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

________________________________________________________________ Maxim Integrated Products 1

Ordering Information

19-3665; Rev 0; 5/05

For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at

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

EVALUATION KIT

AVAILABLE

PART†

PIN-PACKAGE

RESISTANCE

(kΩ)

TOP

MARK

MAX5527GTA

8 TDFN-EP* 100 AOG

MAX5527GUA

8 µMAX 100 —

MAX5528GTA

8 TDFN-EP* 50 AOH

MAX5528GUA

8 µMAX 50 —

MAX5529GTA

8 TDFN-EP* 10 AOI

MAX5529GUA

8 µMAX 10 —

*EP = Exposed pad.

†All devices operate over the -40°C to +105°C temperature range.

VDD

GND

µMAX

TDFN*

TOP VIEW

U/D

*EXPOSED PADDLE. CONNECT TO GND.

MAX5527

MAX5528

MAX5529

VDD

GND

23 4

U/D

87 6 5

MAX5527

MAX5528

MAX5529

Pin Configurations

µMAX is a registered trademark of Maxim Integrated Products, Inc.

Functional Diagram

MAX5527

MAX5528

MAX5529

64-

POSITION

DECODER

UP/DOWN

COUNTER

ONE-TIME

PROGRAM

BLOCK

VDD

GND

U/D

R62

R61

S63

S62

S61

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

2 _______________________________________________________________________________________

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.

VDD to GND...........................................................-0.3V to +6.0V

PV to GND ...........................................................-0.3V to +12.0V

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

Maximum Continuous Current into H, L, and W

MAX5527 ......................................................................±0.5mA

MAX5528 ......................................................................±1.0mA

MAX5529 ......................................................................±2.0mA

Continuous Power Dissipation (TA= +70°C)

8-Pin µMAX (derate 4.5mW/°C above +70°C) ..............362mW

8-Pin TDFN (derate 18.2mW/°C above +70°C) .......1454.5mW

Operating Temperature Range .........................-40°C to +105°C

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

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

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

ELECTRICAL CHARACTERISTICS

(VDD = +2.7V to +5.5V, VH= VDD, VL= GND, TA= -40°C to +105°C, unless otherwise noted. Typical values are at VDD = +5.0V, TA

= +25°C.) (Note 1)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

DC PERFORMANCE

Resolution 64

Taps

MAX5527 75 100

125

MAX5528

37.5

62.5

End-to-End Resistance

MAX5529 7.5 10

12.5

kΩ

End-to-End Resistance

Temperature Coefficent TCR35

ppm/°C

MAX5527/MAX5528 5

Resistance Ratio Temperature

Coefficient MAX5529 10

ppm/°C

Integral Nonlinearity INL Potentiometer configuration, no load,

Figure 1

±0.025

±1 LSB

Differential Nonlinearity DNL Potentiometer configuration, no load,

Figure 1

±0.01

±1 LSB

Full-Scale Error Potentiometer configuration, no load,

Figure 1

-0.005

-1 LSB

Zero-Scale Error Potentiometer configuration, no load,

Figure 1

+0.006

+1 LSB

VDD ≥ 3V 90

200

Wiper Resistance (Note 2) RWVDD < 3V 125

650

Ω

DYNAMIC CHARACTERISTICS

MAX5527 100

MAX5528 200

Wiper -3dB Bandwidth (Note 3)

MAX5529

1000

kHz

MAX5527 -78

MAX5528 -82Total Harmonic Distortion f = 10kHz, midscale, 1VRMS

RL = 100kΩ

MAX5529 -94

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

_______________________________________________________________________________________ 3

ELECTRICAL CHARACTERISTICS (continued)

(VDD = +2.7V to +5.5V, VH= VDD, VL= GND, TA= -40°C to +105°C, unless otherwise noted. Typical values are at VDD = +5.0V, TA

= +25°C.) (Note 1)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

DIGITAL INPUTS (CS, U/D)

Input High Voltage VIH 0.7 x

VDD

Input Low Voltage VIL 0.3 x

VDD

Input Current IIN

±0.1

±1 µA

Input Capacitance CIN 5pF

TIMING CHARACTERISTICS (Note 4)

U/D Mode to CS Setup Time tCU Figures 2 and 3 50 ns

U/D Mode to CS Hold Time tCI Figures 2 and 3 50 ns

CS to U/D Step Hold Time tIC Figures 2 and 3 0 ns

U/D Step Low Time tIL Figures 2 and 3

100

U/D Step High Time tIH Figures 2 and 3

100

Wiper Settling Time tIW CL = 0pF, Figures 2 and 3 (Note 5) 400 ns

PV Rising Edge to CS Falling

Edge tPC Figure 5 1 ms

CS Falling Edge to PV Falling

Edge tCP Figure 5 5 ms

CS Step Low Time tCL Figure 5 5 ms

CS Step High Time tCH Figure 5 5 ms

PV Falling Edge to CS Rising

Edge tPH Figure 5 1 ms

U/D Frequency

fU/DMAX

MHz

Power-Up Time tUP (Note 6) 1 ms

POWER SUPPLY

Supply Voltage VDD 2.7 5.5 V

Static Supply Current IDD CS = U/D = GND or VDD 1.5 µA

TA < +50°C

10.45 11.55

Programming Voltage PV TA ≥ +50°C

11.00 11.55

Programming Current IPV VPV = 11V 4 5 mA

Note 1: All devices are production tested at TA = +25°C, and are guaranteed by design for TA= -40°C to +105°C.

Note 2: The wiper resistance is measured by driving the wiper terminal with a source of 20µA for the MAX5527, 40µA for the

MAX5528, and 200µA for the MAX5529.

Note 3: Wiper at midscale with a 10pF load.

Note 4: Digital timing is guaranteed by design, not production tested.

Note 5: Wiper setting time is measured for a single step from U/Dtransition until wiper voltage reaches 90% of final value.

Note 6: Power-up time is the period of time from when the power supply is applied, until the serial interface is ready for writing.

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

4 _______________________________________________________________________________________

Typical Operating Characteristics

(VDD = +5.0V, TA= +25°C, unless otherwise noted.)

MAX5527 R-DNL ERROR

vs. WIPER POSITION

MAX5527 toc01

WIPER POSITION

R-DNL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

MAX5527 R-INL ERROR

vs. WIPER POSITION

MAX5527 toc02

WIPER POSITION

R-INL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

MAX5528 R-DNL ERROR

vs. WIPER POSITION

MAX5527 toc03

WIPER POSITION

R-DNL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

MAX5528 R-INL ERROR

vs. WIPER POSITION

MAX5527 toc04

WIPER POSITION

R-INL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

MAX5529 R-DNL ERROR

vs. WIPER POSITION

MAX5527 toc05

WIPER POSITION

R-DNL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

MAX5529 R-INL ERROR

vs. WIPER POSITION

MAX5527 toc06

WIPER POSITION

R-INL ERROR (LSB)

483216

-0.005

0.005

0.010

-0.010

064

WIPER RESISTANCE vs. WIPER VOLTAGE

MAX5527 toc07

WIPER VOLTAGE

WIPER RESISTANCE (Ω)

4321

100

125

150

VDD = 3V

VDD = 5V

MAX5527: VDD = 5V, ISOURCE = 50µA

VDD = 3V, ISOURCE = 30µA

MAX5528: VDD = 5V, ISOURCE = 100µA

VDD = 3V, ISOURCE = 60µA

MAX5529: VDD = 5V, ISOURCE = 500µA

VDD = 3V, ISOURCE = 300µA

END-TO-END RESISTANCE PERCENTAGE

CHANGE vs. TEMPERATURE

MAX5527 toc08

TEMPERATURE (°C)

END-TO-END RESISTANCE CHANGE (%)

8560-15 10 35

-0.3

-0.2

-0.1

0.1

0.2

0.3

0.4

-0.4

-40 110

W-TO-L RESISTANCE vs. WIPER POSITION

W-TO-L RESISTANCE (kΩ)

100

MAX5527 toc09

WIPER POSITION

483216064

MAX5527

MAX5528

MAX5529

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

_______________________________________________________________________________________ 5

STATIC SUPPLY CURRENT

vs. TEMPERATURE

MAX5527 toc10

TEMPERATURE (°C)

SUPPLY CURRENT (nA)

85603510-15

100

150

200

250

300

-40 110

VDD = 5V

VDD = 3V

CS = U/D = GND

STATIC SUPPLY CURRENT

vs. SUPPLY VOLTAGE

MAX5527 toc11

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (nA)

5.04.54.03.53.0

100

150

200

250

300

2.5 5.5

CS = U/D = GND

SUPPLY CURRENT

vs. DIGITAL INPUT VOLTAGE

MAX5527 toc12

DIGTAL INPUT VOLTAGE (V)

SUPPLY CURRENT (µA)

54321

0.1

100

1000

0.01

VDD = 5V

VDD = 3V

MIDSCALE WIPER RESPONSE

vs. FREQUENCY

MAX5527 toc13

FREQUENCY (kHz)

GAIN (dB)

1000100101

-15

-12

-9

-6

-3

-18

0.1 10,000

MAX5527

MAX5528

MAX5529

TOTAL HARMONIC DISTORTION

vs. FREQUENCY

MAX5527 toc14

FREQUENCY (kHz)

THD (dB)

1010.1

-100

-90

-80

-70

-60

-50

-40

-110

0.01 100

MAX5527 MAX5528

MAX5529

MIDSCALE, 1VRMS,

RL = 100kΩ

TAP-TO-TAP SWITCHING TRANSIENT

MAX5527 toc15

400ns

U/D

2V/div

GND

OUTPUT

50mV/div

Typical Operating Characteristics (continued)

(VDD = +5V, TA = +25°C, unless otherwise noted.)

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

6 _______________________________________________________________________________________

MAX5527 POWER-UP WIPER TRANSIENT

MAX5527 toc17

2µs

VDD

2V/div

GND

OUTPUT

2V/div

MAX5528 POWER-UP WIPER TRANSIENT

MAX5527 toc18

1µs

VDD

2V/div

GND

OUTPUT

2V/div

MAX5529 POWER-UP WIPER TRANSIENT

MAX5527 toc19

2µs

VDD

2V/div

GND

OUTPUT

2V/div

TAP-TO-TAP SWITCHING TRANSIENT

MAX5527 toc16

400ns

U/D

2V/div

GND

OUTPUT

50mV/div

Typical Operating Characteristics (continued)

(VDD = +5V, TA = +25°C, unless otherwise noted.)

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

_______________________________________________________________________________________ 7

Detailed Description

The MAX5527/MAX5528/MAX5529 100kΩ/50kΩ/10kΩ

end-to-end resistance digitally-controlled potentiome-

ters offer 64 wiper tap positions accessible along the

resistor array between H and L. These devices function

as potentiometers or variable resistors (see Figure 1).

The wiper (W) position is adjusted sequentially through

the tap positions using a simple 2-wire up/down inter-

face. These digital potentiometers provide an optional

one-time programmable feature that sets and locks the

power-on reset position of the wiper (see the PV One-

Time Programming section). Once the desired wiper

position is programmed, the 2-wire interface can be

disabled to prevent unwanted adjustment.

Digital Interface Operation

The MAX5527/MAX5528/MAX5529 provide two modes

of operation when the serial interface is active: incre-

ment mode or decrement mode. The serial interface is

only active when CS is low.

The CS and U/Dinputs control the position of the wiper

along the resistor array. Set U/Dhigh to increment the

MAX5527/MAX5528/MAX5529 when CS transitions

from high to low (Figure 2). Set U/Dlow to decrement

the MAX5527/MAX5528/MAX5529 when CS transitions

high to low (Figure 3). Once CS is held low, each low-

to-high transition at U/Dincrements or decrements the

wiper one position. Once the increment or decrement

mode is set, the device remains in that mode until CS

goes high.

Idle U/Dhigh for normal operation. If U/Dis low when

CS transitions low to high, the wiper moves one addi-

tional tap in its present direction. The wiper remains in

the same position when U/Dis high and CS transitions

low to high. After CS returns high, the wiper position

remains the same (Figure 4).

Additional increments do not change the wiper position

when the wiper is at the maximum end of the resistor

array. Additional decrements do not change the wiper

position when the wiper is at the minimum end of the

resistor array.

POTENTIOMETER

CONFIGURATION

VARIABLE-RESISTOR

CONFIGURATION

Figure 1. Potentiometer/Variable-Resistor Configuration

Pin Description

PIN NAME DESCRIPTION

1 W Wiper Connection

2CS

Chip-Select Input. A high-to-low CS transition determines the increment/decrement mode. Increment

if U/D is high, or decrement if U/D is low. CS is also used for one-time programming. See the PV One-

Time Programming section.

DD Supply Voltage. Bypass with a 0.1µF capacitor to GND.

4 GND Ground

5PV

One-Time Programming Voltage. Connect PV to an 11V supply at the time the device is

programmed/locked, and bypass with a 22µF capacitor to GND. For normal operation, connect to

GND or leave floating.

6U/DUp/Down Control Input. When CS is low, a low-to-high transition at U/D increments or decrements the

wiper position. See the Digital Interface Operation section.

7 L Resistor Low Terminal

8 H Resistor High Terminal

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

8 _______________________________________________________________________________________

PV One-Time Programming

The MAX5527/MAX5528/MAX5529 power up and func-

tion after power-up with the wiper position set in one of

three ways:

1) Factory default power-up position, midscale, adjustable

wiper

2) A newly programmed power-up position, adjustable

wiper

3) A new programmed power-up position, locked wiper

The wiper is set to the factory default position at power-

up (midscale, tap 31). Connect PV to GND or leave

floating to continue powering up the wiper position at

midscale. See Table 1 for the default and one-time pro-

gramming options.

VDD

U/D

tCU tCI tIL tIH tIC

tUP

tIW

Figure 2. Increment-Mode Timing Diagram

VDD

U/D

tCU t

CI t

IH t

IL tIC

tUP

tIW

Figure 3. Decrement-Mode Timing Diagram

U/D

WIPER REMAINS THE

SAME WITH U/D

HIGH AND CS RISING

WIPER CHANGES

WITH U/D LOW AND

CS RISING

Figure 4.

Low-to-High Transition Timing Diagram

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

_______________________________________________________________________________________ 9

Change the wiper’s power-up position using the PV

one-time programming sequence after power-up (see

Figure 5). After setting the wiper to the desired power-

up position, perform the following six-step sequence:

1) Set U/Dand CS high.

2) Connect an external voltage source at PV in the

range of +11V to +11.55V.

3) Pull CS low.

4a) Pulse CS high for six cycles, consisting of CS

starting low and going high for at least tCH, and

then low for at least tCL, to change the wiper

power-up position. The wiper remains adjustable.

4b) Pulse CS high for seven cycles, consisting of CS

starting low and going high for at least tCH and then

low for at least tCL, to change the wiper power-up

position and lock the wiper in that same position.

The seventh CS pulse is labeled the optional lock-

out bit in Figure 5.

5) Connect PV to GND or release the voltage source,

leaving PV floating.

6) Pull CS high.

Pulse CS high for six cycles to change the wiper power-

up position. The wiper position returns to this pro-

grammed position on power-up, but remains adjustable.

Pulse CS high for seven cycles to lock the MAX5527/

MAX5528/MAX5529 to a specific wiper position with no

further adjustments allowed. This effectively converts

the potentiometer to a fixed resistor-divider. The sev-

enth pulse locks the wiper position and disables the

up/down interface. Once locked, connect U/Dand CS

high, low, or leave them floating without increasing the

supply current (see Table 1).

The external PV power supply must source at least 5mA

and have a good transient response. Decouple the PV

power supply with a 22µF capacitor to GND. Ensure that

no more than 250µH of inductance and/or 40Ωof para-

sitic resistance exists between the capacitor and the

device (see Figure 6).

+11V

tPC

6 PULSES RECORD WIPER POSITION OPTIONAL 7TH

LOCKOUT BIT

tCH tCL tCP tPH

U/D

Figure 5. One-Time Program Mode, Serial-Interface Timing Diagram

11V

22µFLPARASITIC

< 250µH

RPARASITIC

< 40Ω

TRACE PARASITICS

MAX5527

MAX5528

MAX5529

Figure 6. PV Power-Supply Decoupling

MODE POWER-ON RESET

WIPER POSITION

ADJUSTABLE

WIPER

Factory Default

(Unprogrammed) Tap 31 Yes

Programmed by

Six CS Pulses

Programmed position

Yes

Programmed by

Seven CS Pulses

Programmed position

Table 1. One-Time Programming Options

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

10 ______________________________________________________________________________________

Applications Information

Use the MAX5527/MAX5528/MAX5529 in applications

requiring digitally controlled adjustable resistance,

such as LCD contrast control where voltage biasing

adjusts the display contrast, or for programmable filters

with adjustable gain and/or cutoff frequency.

Positive LCD Bias Control

Figures 7 and 8 show an application where the voltage-

divider or variable resistor is used to make an adjustable,

positive LCD bias voltage. The op-amp provides buffer-

ing and gain to the resistor-divider network made by the

potentiometer (Figure 7), or to a fixed resistor and a

variable resistor (Figure 8).

Programmable Filter

Figure 9 shows the configuration for a 1st-order pro-

grammable filter. The gain of the filter is adjusted by

R2, and the cutoff frequency is adjusted by R3. Use the

following equations to calculate the gain (G), and the

-3dB cutoff frequency (fC), only up to frequencies one

decade below the wiper -3dB bandwidth.

Adjustable Voltage Reference

Figure 10 shows the MAX5527/MAX5528/MAX5529

used as the feedback resistors in an adjustable-voltage

reference application.

fxR xC

23π

VOUT

30V

MAX5527

MAX5528

MAX5529

Figure 7. Positive LCD Bias Control Using a Voltage-Divider

VOUT

30V

MAX5527

MAX5528

MAX5529

Figure 8. Positive LCD Bias Control Using a Variable Resistor

VOUT

VIN

MAX5527

MAX5528

MAX5529

Figure 9. Programmable Filter

MAX6160

+5V

GND

VIN

OUT

ADJ

V0 REF

V0 = 1.23V 100kΩ FOR THE MAX5527

R2(kΩ)

V0 = 1.23V 50kΩ FOR THE MAX5528

R2(kΩ)

MAX5527

MAX5528

MAX5529

V0 = 1.23V 10kΩ FOR THE MAX5529

R2(kΩ)

Figure 10. Adjustable Voltage Reference

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

______________________________________________________________________________________ 11

Layout and Power-Supply Considerations

Proper layout and power-supply bypassing can affect

device performance. Bypass VDD with a 0.1µF capacitor

as close to the device as possible. When programming

the wiper position, bypass PV with a 22µF capacitor as

close to the device as possible. For a VDD power supply

with a slew rate greater than 1V/µs or in applications

where power-supply overshoot is prevalent, connect a

10Ωresistor in series to VDD and bypass VDD with an

additional 4.7µF capacitor to ground.

Chip Information

TRANSISTOR COUNT: 3420

PROCESS: BiCMOS

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

12 ______________________________________________________________________________________

Package Information

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,

go to www.maxim-ic.com/packages.)

6, 8, &10L, DFN THIN.EPS

COMMON DIMENSIONS

SYMBOL MIN. MAX.

A 0.70 0.80

D 2.90 3.10

E 2.90 3.10

A1 0.00 0.05

L 0.20 0.40

PKG. CODE N D2 E2 eJEDEC SPEC b[(N/2)-1] x e

PACKAGE VARIATIONS

0.25 MIN.k

A2 0.20 REF.

2.00 REF0.25±0.050.50 BSC2.30±0.1010T1033-1

2.40 REF0.20±0.05- - - - 0.40 BSC1.70±0.10 2.30±0.1014T1433-1

1.50±0.10 MO229 / WEED-3

0.40 BSC - - - - 0.20±0.05 2.40 REFT1433-2 14 2.30±0.101.70±0.10

T633-2 6 1.50±0.10 2.30±0.10 0.95 BSC MO229 / WEEA 0.40±0.05 1.90 REF

T833-2 8 1.50±0.10 2.30±0.10 0.65 BSC MO229 / WEEC 0.30±0.05 1.95 REF

T833-3 8 1.50±0.10 2.30±0.10 0.65 BSC MO229 / WEEC 0.30±0.05 1.95 REF

2.30±0.10 MO229 / WEED-3 2.00 REF0.25±0.050.50 BSC1.50±0.1010T1033-2

MAX5527/MAX5528/MAX5529

One-Time Programmable, Linear-Taper Digital

Potentiometers

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.

Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 13

Package Information (continued)

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,

go to www.maxim-ic.com/packages.)

8LUMAXD.EPS

PACKAGE OUTLINE, 8L uMAX/uSOP

21-0036

REV.DOCUMENT CONTROL NO.APPROVAL

PROPRIETARY INFORMATION

TITLE:

MAX

0.043

0.006

0.014

0.120

0.198

0.026

0.007

0.037

0.0207 BSC

0.0256 BSC

A2 A1

FRONT VIEW SIDE VIEW

E H

0.6±0.1

Ø0.50±0.1

TOP VIEW

A2 0.030

BOTTOM VIEW

6°

0°

0.010

0.116

0.188

0.016

0.005

4X S INCHES

AMIN

0.002 0.950.75

0.5250 BSC

0.25 0.36

2.95 3.05

4.78

0.41

0.65 BSC

5.03

0.66

6°0°

0.13 0.18

MAX

MIN

MILLIMETERS

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Maxim > Products > Digital P otentiometers

MAX5527, MAX5528, MAX5529

64-Tap, One-Time Programmable, Linear-Taper Digital Potentiometers

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Technical Documents

Ordering Info

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Ordering Information

Notes:

Other options and links for purchasing parts are listed at: http://www.maxim-ic.com/sales.1.

Didn't Find What You Need? Ask our applications engineers. Expert assistance in finding parts, usually within one

business day.

Part number suffixes: T or T&R = tape and reel; + = RoHS/lead-free; # = RoHS/lead-exempt. More: SeeFull Data

Sheet or Part Naming Conventions.

* Some packages have variations, listed on the drawing. "PkgCode/Variation" tells which variation the product

uses.

Devices: 1-24 of 24

MAX5527

Free

Sam ple

Buy

Package:

TYPE PINS FOOTPRINT

DRAWING CODE/VAR *

Temp

RoHS/Lead-Free?

Materials Analysis

MAX5527GTA

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5527GTA+

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5527GTA+T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5527GTA-T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5527GUA-T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5527GUA+T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5527GUA

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5527GUA+

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5528

Free

Sam ple

Buy

Package:

TYPE PINS FOOTPRINT

DRAWING CODE/VAR *

Temp

RoHS/Lead-Free?

Materials Analysis

MAX5528GTA+

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5528GTA

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5528GTA+T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5528GTA-T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5528GUA+

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5528GUA+T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5528GUA

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5528GUA-T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5529

Free

Sam ple

Buy

Package:

TYPE PINS FOOTPRINT

DRAWING CODE/VAR *

Temp

RoHS/Lead-Free?

Materials Analysis

MAX5529GTA

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5529GTA+

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5529GTA+T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833+2*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5529GTA-T

THIN QFN (Dual);8 pin;10 mm

Dwg: 21-0137I (PDF)

Use pkgcode/variation: T833-2*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5529GUA+T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5529GUA+

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8+1*

0C to +85C

RoHS/Lead-Free: Lead Free

Materials Analysis

MAX5529GUA

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

MAX5529GUA-T

uMAX;8 pin;16 mm

Dwg: 21-0036J (PDF)

Use pkgcode/variation: U8-1*

0C to +85C

RoHS/Lead-Free: No

Materials Analysis

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