MAX3379EEUD+ - Maxim Integrated

General Description

The MAX3372E–MAX3379E and MAX3390E–MAX3393E

±15kV ESD-protected level translators provide the level

shifting necessary to allow data transfer in a multivoltage

system. Externally applied voltages, VCC and VL, set the

logic levels on either side of the device. A low-voltage

logic signal present on the VLside of the device appears

as a high-voltage logic signal on the VCC side of the

device, and vice-versa. The MAX3374E/MAX3375E/

MAX3376E/MAX3379E and MAX3390E–MAX3393E unidi-

rectional level translators level shift data in one direction

(VL→VCC or VCC →VL) on any single data line. The

MAX3372E/MAX3373E and MAX3377E/MAX3378E bidi-

rectional level translators utilize a transmission-gate-

based design (Figure 2) to allow data translation in either

direction (VL↔VCC) on any single data line. The

MAX3372E–MAX3379E and MAX3390E–MAX3393E

accept VLfrom +1.2V to +5.5V and VCC from +1.65V to

+5.5V, making them ideal for data transfer between low-

voltage ASICs/PLDs and higher voltage systems.

All devices in the MAX3372E–MAX3379E, MAX3390E–

MAX3393E family feature a three-state output mode that

reduces supply current to less than 1µA, thermal short-

circuit protection, and ±15kV ESD protection on the VCC

side for greater protection in applications that route sig-

nals externally. The MAX3372E/MAX3377E operate at a

guaranteed data rate of 230kbps. Slew-rate limiting

reduces EMI emissions in all 230kbps devices. The

MAX3373E–MAX3376E/MAX3378E/MAX3379E and

MAX3390E–MAX3393E operate at a guaranteed data rate

of 8Mbps over the entire specified operating voltage

range. Within specific voltage domains, higher data rates

are possible. (See the

Timing Characteristics

table.)

The MAX3372E–MAX3376E are dual level shifters

available in 3 x 3 UCSP™, 8-pin TDFN, and 8-pin

SOT23-8 packages. The MAX3377E/MAX3378E/

MAX3379E and MAX3390E–MAX3393E are quad level

shifters available in 3 x 4 UCSP, 14-pin TDFN, and 14-

pin TSSOP packages.

________________________Applications

SPI, MICROWIRE®, and I2C Level

Translation

Low-Voltage ASIC Level Translation

Smart Card Readers

Cell-Phone Cradles

Portable POS Systems

Portable Communication Devices

Low-Cost Serial Interfaces

Cell Phones

GPS

Telecommunications Equipment

Features

oGuaranteed Data Rate Options

230kbps

8Mbps (+1.2V ≤VL≤VCC ≤+5.5V)

10Mbps (+1.2V ≤VL≤VCC ≤+3.3V)

16Mbps (+1.8V ≤VL≤VCC ≤+2.5V and

+2.5V ≤VL≤VCC +3.3V)

oBidirectional Level Translation

(MAX3372E/MAX3373E and

MAX3377E/MAX3378E)

oOperation Down to +1.2V on VL

o±15kV ESD Protection on I/O VCC Lines

oUltra-Low 1µA Supply Current in Three-State

Output Mode

oLow-Quiescent Current (130µA typ)

oUCSP, TDFN, SOT23, and TSSOP Packages

oThermal Short-Circuit Protection

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

VCC

I/0 VCC1

I/0 VCC2

N.C.N.C.

I/O VL2

I/O VL1

MAX3377E/

MAX3378E

I/0 VCC3

GND

I/O VL4

I/O VL3

TDFN-14

(3mm x 3mm)

THREE-STATE

I/0 VCC4

TOP VIEW

Pin Configurations

19-2328; Rev 3; 1/13

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

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

MAX3372E–MAX3379E/

MAX3390E–MAX3393E

Ordering Information

UCSP is a trademark of Maxim Integrated Products, Inc.

MICROWIRE is a registered trademark of National

Semiconductor Corp.

Ordering Information continued at end of data sheet.

Selector Guide appears at end of data sheet.

Pin Configurations continued at end of data sheet.

PART TEMP RANGE PIN-

PACKAGE

MAX3372EEKA+T -40°C to +85°C 8 SOT23

Denotes a lead-free package.

T = Tape and reel.

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

2Maxim Integrated

ABSOLUTE MAXIMUM RATINGS

ELECTRICAL CHARACTERISTICS

(VCC = +1.65V to +5.5V, VL= +1.2V to (VCC + 0.3V), GND = 0, I/O VL_ and I/O VCC_ unconnected, TA= TMIN to TMAX, unless other-

wise noted. Typical values are at VCC = +3.3V, VL= +1.8V, TA= +25°C.) (Notes 1, 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.

(All voltages referenced to GND.)

VCC ...........................................................................-0.3V to +6V

I/O VCC_......................................................-0.3V to (VCC + 0.3V)

I/O VL_ ...........................................................-0.3V to (VL+ 0.3V)

THREE-STATE...............................................-0.3V to (VL+ 0.3V)

Short-Circuit Duration I/O VL, I/O VCC to GND...........Continuous

Short-Circuit Duration I/O VLor I/O VCC to GND

Driven from 40mA Source

(except MAX3372E and MAX3377E) .....................Continuous

Continuous Power Dissipation (TA= +70°C)

8-Pin SOT23 (derate 5.6mW/°C above +70°C)........444.4mW

8-Pin TDFN (derate 18.5mW/°C above +70°C) ........1482mW

3 x 3 UCSP (derate 4.7mW/°C above +70°C) ............379mW

3 x 4 UCSP (derate 6.5mW/°C above +70°C) ............520mW

14-Pin TSSOP (derate 9.1mW/°C above +70°C) ........727mW

14-Pin TDFN (derate 18.5mW/°C above +70°C) ......1482mW

Operating Temperature Range ...........................-40°C to +85°C

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

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

Soldering Temperature (reflow) .......................................+260°C

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

POWER SUPPLIES

VL Supply Range VL1.2 5.5 V

VCC Supply Range VCC 1.65 5.50 V

Supply Current from VCC IQVCC 130 300 µA

Supply Current from VLIQVL16 100 µA

VCC Three-State Output Mode

Supply Current ITHREE-STATE-VCC TA = +25°C, THREE-STATE = GND 0.03 1 µA

VL Three-State Output Mode

Supply Current ITHREE-STATE-VL TA = +25°C, THREE-STATE = GND 0.03 1 µA

Three-State Output Mode

Leakage Current

I/O VL_ and I/O VCC_

ITHREE-STATE-LKG TA = +25°C, THREE-STATE = GND 0.02 1 µA

THREE-STATE P in Inp ut Leakag eT

A = +25°C 0.02 1 µA

ESD PROTECTION

IEC 1000-4-2 Air-Gap Discharge ±8

IEC 1000-4-2 Contact Discharge ±8I/O VCC (Note 3)

Human Body Model ±15

LOGIC-LEVEL THRESHOLDS (MAX3372E/MAX3377E)

I/O VL_ Input-Voltage High VIHL VL - 0.2 V

I/O VL_ Input-Voltage Low VILL 0.15 V

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

ELECTRICAL CHARACTERISTICS (continued)

(VCC = +1.65V to +5.5V, VL= +1.2V to (VCC + 0.3V), GND = 0, I/O VL_ and I/O VCC_ unconnected, TA= TMIN to TMAX, unless other-

wise noted. Typical values are at VCC = +3.3V, VL= +1.8V, TA= +25°C.) (Notes 1, 2)

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

I/O VCC_ Input-Voltage High VIHC VCC - 0.4 V

I/O VCC_ Input-Voltage Low VILC 0.15 V

I/O VL_ Output-Voltage High VOHL I/O VL_ source current = 20µA,

I/O VCC_ > VCC - 0.4V 0.67 ✕ VLV

I/O VL_ Output-Voltage Low VOLL I/O VL_ sink current = 20µA,

I/O VCC_ < 0.15V 0.4 V

I/O VCC_ Output-Voltage High VOHC I/O VCC_ source current = 20µA,

I/O VL _ > VL - 0.2V 0.67 ✕ VCC V

I/O VCC_ Output-Voltage Low VOLC I/O VCC_ sink current = 20µA,

I/O VL_ < 0.15V 0.4 V

THREE-STATE Input-Voltage

High VIL-THREE-STATE VL - 0.2 V

THREE-STATE Input-Voltage

Low VIL-THREE-STATE 0.15 V

LOGIC-LEVEL THRESHOLDS (MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E)

I/O VL_ Input-Voltage High VIHL VL - 0.2 V

I/O VL_ Input-Voltage Low VILL 0.15 V

I/O VCC_ Input-Voltage High VIHC VCC - 0.4 V

I/O VCC_ Input-Voltage Low VILC 0.15 V

I/O VL_ Output-Voltage High VOHL I/O VL_ source current = 20µA,

I/O VCC_ ≥ VCC - 0.4V 0.67 ✕ VLV

I/O VL_ Output-Voltage Low VOLL I/O VL_ sink current = 1mA,

I/O VCC_ ≤ 0.15V 0.4 V

I/O VCC_ Output-Voltage High VOHC I/O VCC_ source current = 20µA,

I/O VL_ ≥ VL - 0.2V 0.67 ✕ VCC V

I/O VCC_ Output-Voltage Low VOLC I/O VCC_ sink current = 1mA,

I/O VL_ ≤ 0.15V 0.4 V

THREE-STATE Input-Voltage

High VIH-THREE-STATE VL - 0.2 V

THREE-STATE Input-Voltage

Low VIL-THREE-STATE 0.15 V

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

4Maxim Integrated

TIMING CHARACTERISTICS

(VCC = +1.65V to +5.5V, VL= +1.2V to (VCC + 0.3V), GND = 0, RLOAD = 1MΩ, I/O test signal of Figure 1, TA= TMIN to TMAX, unless

otherwise noted. Typical values are at VCC = +3.3V, VL= +1.8V, TA= +25°C, unless otherwise noted.) (Notes 1, 2)

PARAMETER SYM B O L CONDITIONS MIN TYP MAX UNITS

MAX3372E/MAX3377E (CLOAD = 50pF)

I/O VCC_ Rise Time (Note 4) tRVCC 1100 ns

I/O VCC_ Fall Time (Note 5) tFVCC 1000 ns

I/O VL _ Rise Time (Note 4) tRVL 600 ns

I/O VL _ Fall Time (Note 5) tFVL 1100 ns

I/OVL-VCC Driving I/O VL _ 1.6

Propagation Delay I/OVCC-VL Driving I/O VCC_ 1.6 µs

Channel-to-Channel Skew tSKEW Each translator equally loaded 500 ns

Maximum Data Rate CL = 25pF 230 kbps

M A X3 3 7 3 E– M A X3 3 7 6 E/M A X3 3 7 8 E/ M A X3 3 7 9 E a n d M A X3 3 9 0 E– M A X3 3 9 3 E ( C

LOA D

= 15 p F , Dr iv e r O u t p u t Im p e d a n c e ≤ 5 0 Ω)

+1.2V ≤ VL ≤ VCC ≤ +5.5V

725

I/O VCC_ Rise Time (Note 4) tRVCC Open-drain driving 170 400 ns

637

I/O VCC_ Fall Time (Note 5) tFVCC Open-drain driving 20 50 ns

830

I/O VL _ Rise Time (Note 4) tRVL Open-drain driving 180 400 ns

330

I/O VL _ Fall Time (Note 5) tLFV Open-drain driving 30 60 ns

530

I/OVL-VCC Driving I/O VL _Open-drain driving 210 1000

430

Propagation Delay

I/OVCC-VL Driving I/O VCC_Open-drain driving 190 1000

Channel-to-Channel Skew tSKEW Each translator

equally loaded Open-drain driving 50 ns

8 Mbps

Maximum Data Rate Open-drain driving 500 kbps

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Note 1: All units are 100% production tested at TA= +25°C. Limits over the operating temperature range are guaranteed by design

and not production tested.

Note 2: For normal operation, ensure VL< (VCC + 0.3V). During power-up, VL> (VCC + 0.3V) will not damage the device.

Note 3: To ensure maximum ESD protection, place a 1µF capacitor between VCC and GND. See

Applications Circuits

Note 4: 10% to 90%

Note 5: 90% to 10%

TIMING CHARACTERISTICS (continued)

(VCC = +1.65V to +5.5V, VL= +1.2V to (VCC + 0.3V), GND = 0, RLOAD = 1MΩ, I/O test signal of Figure 1, TA= TMIN to TMAX, unless

otherwise noted. Typical values are at VCC = +3.3V, VL= +1.8V, TA= +25°C, unless otherwise noted.) (Notes 1, 2)

PARAMETER SYM B O L CONDITIONS MIN TYP MAX UNITS

+1.2V ≤ VL ≤ VCC ≤ +3.3V

I/O VCC_ Rise Time (Note 4) tRVCC 25 ns

I/O VCC_ Fall Time (Note 5) tFVCC 30 ns

I/O VL _ Rise Time (Note 4) tRVL 30 ns

I/O VL _ Fall Time (Note 5) tFVL 30 ns

I/OVL-VCC Driving I/O VL _20

Propagation Delay I/OVCC-VL Driving I/O VCC_20

Channel-to-Channel Skew tSKEW Each translator equally loaded 10 ns

Maximum Data Rate 10 Mbps

+2.5V ≤ VL ≤ VCC ≤ +3.3V

I/O VCC_ Rise Time (Note 4) tRVCC 15 ns

I/O VCC_ Fall Time (Note 5) tFVCC 15 ns

I/O VL _ Rise Time (Note 4) tRVL 15 ns

I/O VL _ Fall Time (Note 5) tFVL 15 ns

I/OVL-VCC Driving I/O VL _15

Propagation Delay I/OVCC-VL Driving I/O VCC_15

Channel-to-Channel Skew tSKEW Each translator equally loaded 10 ns

Maximum Data Rate 16 Mbps

+1.8V ≤ VL ≤ VCC ≤ +2.5V

I/O VCC_ Rise Time (Note 4) tRVCC 15 ns

I/O VCC_ Fall Time (Note 5) tFVCC 15 ns

I/O VL _ Rise Time (Note 4) tRVL 15 ns

I/O VL _ Fall Time (Note 5) tFVL 15 ns

I/OVL-VCC Driving I/O VL _15

Propagation Delay I/OVCC-VL Driving I/O VCC_15

Channel-to-Channel Skew tSKEW Each translator equally loaded 10 ns

Maximum Data Rate 16 Mbps

Typical Operating Characteristics

(RLOAD = 1MΩ, TA = +25°C, unless otherwise noted. All 230kbps TOCs apply to MAX3372E/MAX3377E only. All 8Mbps and

500kbps TOCs apply to MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E only.)

VL SUPPLY CURRENT vs. SUPPLY VOLTAGE

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc01

VCC (V)

SUPPLY CURRENT (μA)

4.954.403.853.302.752.20

100

200

300

400

500

600

1.65 5.50

8Mbps, CLOAD = 15pF

230kbps, CLOAD = 50pF

500kbps, OPEN-DRAIN, CLOAD = 15pF

VCC SUPPLY CURRENT vs. SUPPLY VOLTAGE

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc02

VCC (V)

SUPPLY CURRENT (mA)

4.954.403.853.302.752.20

0.5

1.0

1.5

2.0

2.5

3.0

3.5

1.65 5.50

8Mbps, CLOAD = 15pF

230kbps, CLOAD = 50pF

500kbps, OPEN-DRAIN, CLOAD = 15pF

VL SUPPLY CURRENT vs. TEMPERATURE

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc03

TEMPERATURE (°C)

SUPPLY CURRENT (μA)

6035-15 10

100

150

200

250

300

350

400

-40 85

8Mbps, CLOAD = 15pF

230kbps, CLOAD = 50pF

500kbps, OPEN-DRAIN, CLOAD = 15pF

VCC SUPPLY CURRENT vs. TEMPERATURE

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc04

TEMPERATURE (°C)

SUPPLY CURRENT (μA)

6035-15 10

200

400

600

800

1000

1200

1400

1600

-40 85

8Mbps, CLOAD = 15pF

230kbps, CLOAD = 50pF

500kbps, OPEN-DRAIN, CLOAD = 15pF

VL SUPPLY CURRENT vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc05

CAPACITIVE LOAD (pF)

SUPPLY CURRENT (μA)

8570554025

100

150

200

250

300

350

10 100

8Mbps

230kbps

500kbps, OPEN-DRAIN

VCC SUPPLY CURRENT vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc06

CAPACITIVE LOAD (pF)

SUPPLY CURRENT (μA)

8570554025

500

1000

1500

2000

2500

10 100

8Mbps

230kbps

500kbps, OPEN-DRAIN

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc07

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

90807060504030

500

1000

1500

2000

2500

20 100

DATA RATE = 230kbps

tHL

tLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc08

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

454030 3520 2515

10 50

DATA RATE = 8Mbps

tHL

tLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc09

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

45403530252015

100

150

200

250

10 50

tLH

tHL

DATA RATE = 500kbps,

OPEN-DRAIN

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

6Maxim Integrated

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc10

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

90807060504030

100

200

300

400

500

600

700

20 100

DATA RATE = 230kbps

tPHL

tPLH

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc11

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

45403530252015

10 50

DATA RATE = 8Mbps

tPLH

tPHL

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V)

MAX3372E toc12

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

45403530252015

100

150

200

250

300

10 50

DATA RATE = 500kbps,

OPEN-DRAIN

tPHL

tPLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +2.5V, VL = +1.8V)

MAX3372E toc13

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

90807060504030

500

1000

1500

2000

2500

20 100

DATA RATE = 230kbps

tHL

tLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VL, VCC = +2.5V, VL = +1.8V)

MAX3372E toc14

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

45403530252015

10 50

DATA RATE = 8Mbps

tLH

tHL

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +2.5V, VL = +1.8V)

MAX3372E toc15

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

45403530252015

100

150

200

250

300

10 50

DATA RATE = 500kbps,

OPEN-DRAIN

tHL

tLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc16

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

90807060504030

500

1000

1500

2000

2500

20 100

DATA RATE = 230kbps

tLH

tHL

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc17

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

45403530252015

10 50

DATA RATE = 8Mbps

tHL

tLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc18

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

45403530252015

100

150

200

250

300

10 50

DATA RATE = 500kbps,

OPEN-DRAIN

tHL

tLH

Typical Operating Characteristics (continued)

(RLOAD = 1MΩ, TA = +25°C, unless otherwise noted. All 230kbps TOCs apply to MAX3372E/MAX3377E only. All 8Mbps and

500kbps TOCs apply to MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E only.)

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Typical Operating Characteristics (continued)

(RLOAD = 1MΩ, TA = +25°C, unless otherwise noted. All 230kbps TOCs apply to MAX3372E/MAX3377E only. All 8Mbps and

500kbps TOCs apply to MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E only.)

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc19

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

90807060504030

100

200

300

400

500

600

700

20 100

DATA RATE = 230kbps

tPHL

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc20

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

45403530252015

10 50

DATA RATE = 8Mbps

tPLH

tPHL

PROPAGATION DELAY vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +3.3V, VL = +1.8V)

MAX3372E toc21

CAPACITIVE LOAD (pF)

PROPAGATION DELAY (ns)

45403530252015

100

150

200

250

300

10 50

DATA RATE = 500kbps,

OPEN-DRAIN

tPHL

tPLH

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +2.5V, VL = +1.8V)

MAX3372E toc22

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

90807060504030

500

1000

1500

2000

2500

20 100

DATA RATE = 230kbps

tLH

tHL

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +2.5V, VL = +1.8V)

MAX3372E toc23

CAPACITIVE LOAD (pF)

RISE/FALL TIME (ns)

403020

10 50

tLH

tHL

DATA RATE = 8Mbps

RISE/FALL TIME vs. CAPACITIVE LOAD

(DRIVING I/O VCC, VCC = +2.5V, VL = +1.8V)

MAX3373E toc24

CAPACITIVE LOAD (pF)

RISE/FALl TIME (ns)

403020

100

150

200

250

300

350

10 50

DATA RATE = 500kbps,

OPEN-DRAIN

tLH

tHL

RAIL-TO-RAIL DRIVING

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V,

CLOAD = 50pF, DATA RATE = 230kbps)

MAX3372E toc25

I/O VL_

I/O VCC_

1V/div

2V/div

1μs/div

RAIL-TO-RAIL DRIVING

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V,

CLOAD = 15pF, DATA RATE = 8Mbps)

MAX3372E toc26

I/O VL_

I/O VCC_

1V/div

2V/div

200ns/div

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

8Maxim Integrated

Typical Operating Characteristics (continued)

(RLOAD = 1MΩ, TA = +25°C, unless otherwise noted. All 230kbps TOCs apply to MAX3372E/MAX3377E only. All 8Mbps and

500kbps TOCs apply to MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E only.)

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

EXITING THREE-STATE OUTPUT MODE

(VCC = +3.3V, VL = +1.8V, CLOAD = 50pF)

MAX3372E toc28

I/O VL_

I/O VCC_

2μs/div

THREE-STATE

2V/div

1V/div

Pin Description

3 x 4

UCSP

TSSOP SOT23-8 3 x 3

UCSP

8 TDFN-

14 TDFN-

NAME FUNCTION

A1 2 5 C2 6 1 I/O VL1Input/Output 1. Referenced to VL. (Note 6)

A2 3 4 C3 8 2 I/O VL2Input/Output 2. Referenced to VL. (Note 6)

A3 4 — — — 5 I/O VL3Input/Output 3. Referenced to VL. (Note 6)

A4 5 — — — 6 I/O VL4Input/Output 4. Referenced to VL. (Note 6)

B1 14 7 A1 4 14 VCC VCC Input Voltage +1.65V ≤ VCC ≤ +5.5V.

B2 1 3 C1 7 10 VLLogic Input Voltage +1.2V ≤ VL ≤ (VCC + 0.3V)

B3 8 6 B1 5 3 THREE-

STATE

Thr ee- S tate Outp ut M od e E nab l e. P ul l THRE E - S TATE l ow

to p l ace d evi ce i n thr ee- state outp ut m od e. I/O V

C C _

and

I/O V

L_ ar e hi g h i m p ed ance i n thr ee- state outp ut m od e.

N o t e : Log i c r efer enced to V

L ( for l og i c thr eshol d s see the

E l ectr i cal C har acter i sti cs tab l e) .

B4 7 2 B3 2 7 GND Ground

C1 13 8 A2 3 13 I/O VCC1Input/Output 1. Referenced to VCC. (Note 6)

C2 12 1 A3 1 12 I/O VCC2Input/Output 2. Referenced to VCC. (Note 6)

C3 11 — — — 9 I/O VCC3Input/Output 3. Referenced to VCC. (Note 6)

C4 10 — — — 8 I/O VCC4Input/Output 4. Referenced to VCC. (Note 6)

—6, 9 — B2 — 4, 11 N.C. No Connection. Not internally connected.

— — — — — — EP Exposed Pad. Connect EP to ground.

Note 6: For unidirectional devices (MAX3374E/MAX3375E/MAX3376E/MAX3379E and MAX3390E–MAX3393E) see the

Configurations

for input/output configurations.

OPEN-DRAIN DRIVING

(DRIVING I/O VL, VCC = +3.3V, VL = +1.8V,

CLOAD = 15pF, DATA RATE = 500kbps)

MAX3372E toc27

I/O VL_

I/O VCC_

1V/div

2V/div

200ns/div

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

10 Maxim Integrated

Detailed Description

The MAX3372E–MAX3379E and MAX3390E–MAX3393E

ESD-protected level translators provide the level shifting

necessary to allow data transfer in a multivoltage system.

Externally applied voltages, VCC and VL, set the logic lev-

els on either side of the device. A low-voltage logic signal

present on the VLside of the device appears as a high-

voltage logic signal on the VCC side of the device, and

vice-versa. The MAX3374E/MAX3375E/MAX3376E/

MAX3379E and MAX3390E–MAX3393E unidirectional

level translators level shift data in one direction (VL→

VCC or VCC →VL) on any single data line. The

MAX3372E/MAX3373E and MAX3377E/MAX3378E bidi-

rectional level translators utilize a transmission-gate-

based design (see Figure 2) to allow data translation in

either direction (VL↔VCC) on any single data line. The

MAX3372E–MAX3379E and MAX3390E–MAX3393E

accept VLfrom +1.2V to +5.5V and VCC from +1.65V to

+5.5V, making them ideal for data transfer between low-

voltage ASICs/PLDs and higher voltage systems.

All devices in the MAX3372E–MAX3379E, MAX3390E–

MAX3393E family feature a three-state output mode that

reduces supply current to less than 1µA, thermal short-

circuit protection, and ±15kV ESD protection on the VCC

side for greater protection in applications that route sig-

nals externally. The MAX3372E/MAX3377E operate at a

guaranteed data rate of 230kbps. Slew-rate limiting

reduces EMI emissions in all 230kbps devices. The

MAX3373E–MAX3376E/MAX3378E/MAX3379E and

MAX3390E–MAX3393E operate at a guaranteed data rate

of 8Mbps over the entire specified operating voltage

range. Within specific voltage domains, higher data rates

are possible. (See the

Timing Characteristics

table.)

MAX3372E–MAX3379E

AND MAX3390E–MAX3393E

I/O VL_

(tRISE,

tFALL < 10ns)

DATA

I/O VCC_

RLOAD CLOAD

VCC

GND

tPD-VCC-LH tPD-VCC-HL

I/O VCC_

tRVCC tFVCC

Figure 1a. Rail-to-Rail Driving I/O VL

MAX3372E–MAX3379E

AND MAX3390E–MAX3393E

I/O VL_

I/O VCC_

(tRISE,

tFALL < 10ns)

DATA

I/O VCC_

VCC

GND

RLOAD

CLOAD

tPD-VL-LH tPD-VL-HL

I/O VL_

tRVL tFVL

Figure 1b. Rail-to-Rail Driving I/O VCC

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Level Translation

For proper operation ensure that +1.65V ≤VCC ≤

+5.5V, +1.2V ≤VL≤+5.5V, and VL≤(VCC + 0.3V).

During power-up sequencing, VL≥(VCC + 0.3V) will

not damage the device. During power-supply sequenc-

ing, when VCC is floating and VLis powering up, a cur-

rent may be sourced, yet the device will not latch up.

The speed-up circuitry limits the maximum data rate for

devices in the MAX3372E–MAX3379E, MAX3390E–

MAX3393E family to 16Mbps. The maximum data rate

also depends heavily on the load capacitance (see the

Typical Operating Characteristics

), output impedance

of the driver, and the operational voltage range (see the

Timing Characteristics

table)

Speed-Up Circuitry

The MAX3373E–MAX3376E/MAX3378E/MAX3379E and

MAX3390E–MAX3393E feature a one-shot generator that

decreases the rise time of the output. When triggered,

MOSFETs PU1 and PU2 turn on for a short time to pull up

I/O VL_ and I/O VCC_ to their respective supplies (see

Figure 2b). This greatly reduces the rise time and propa-

gation delay for the low-to-high transition. The scope

photo of Rail-to-Rail Driving for 8Mbps Operation in the

Typical Operating Characteristics

shows the speed-up

circuitry in operation.

Rise-Time Accelerators

The MAX3373E–MAX3376E/MAX3378E/MAX3379E and

the MAX3390E–MAX3393E have internal rise-time

accelerators allowing operation up to 16Mbps. The

rise-time accelerators are present on both sides of the

device and act to speed up the rise time of the input

and output of the device, regardless of the direction of

the data. The triggering mechanism for these accelera-

tors is both level and edge sensitive. To prevent false

triggering of the rise-time accelerators, signal fall times

of less than 20ns/V are recommended for both the

inputs and outputs of the device. Under less noisy con-

ditions, longer signal fall times may be acceptable.

MAX3372E–MAX3379E

AND MAX3390E–MAX3393E

I/O VL_ I/O VCC_

VCC

GND

I/O VCC_

tPD-VCC-LH

tPD-VCC-HL

I/O VL_

tRVCC tFVCC

DATA

RLOAD

CLOAD

Figure 1c. Open-Drain Driving I/O VCC

MAX3373E–MAX3376E,

MAX3378E/MAX3379E

AND MAX3390E–MAX3393E

I/O VL_

I/O VCC_

DATA

I/O VCC_

VCC

GND

RLOAD

CLOAD

tPD-VL-LH

tPD-VL-HL

I/O VL_

tRVL tFVL

Figure 1d. Open-Drain Driving I/O VL

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

12 Maxim Integrated

Three-State Output Mode

Pull THREE-STATE low to place the MAX3372E–

MAX3379E and MAX3390E–MAX3393E in three-state out-

put mode. Connect THREE-STATE to VL(logic-high) for

normal operation. Activating the three-state output mode

disconnects the internal 10kΩpullup resistors on the I/O

VCC and I/O VLlines. This forces the I/O lines to a high-

impedance state, and decreases the supply current to

less than 1µA. The high-impedance I/O lines in three-

state output mode allow for use in a multidrop network.

When in three-state output mode, do not allow the voltage

at I/O VL_ to exceed (VL+ 0.3V), or the voltage at I/O

VCC_ to exceed (VCC + 0.3V).

Thermal Short-Circuit Protection

Thermal overload detection protects the MAX3372E–

MAX3379E and MAX3390E–MAX3393E from short-circuit

fault conditions. In the event of a short-circuit fault, when

the junction temperature (TJ) reaches +152°C, a thermal

sensor signals the three-state output mode logic to force

the device into three-state output mode. When TJhas

cooled to +142°C, normal operation resumes.

VCC

I/O VLI/O VCC

GATE

BIAS

P P

Figure 2a. Functional Diagram, MAX3372E/MAX3377E (1 I/O line)

VCC

I/O VL_ I/O VCC_

GATE

BIAS

PU1 PU2

ONE-SHOT

BLOCK

ONE-SHOT

BLOCK

Figure 2b. Functional Diagram, MAX3373E/MAX3378E (1 I/O line)

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

CHARGE-CURRENT-

LIMIT RESISTOR

DISCHARGE

RESISTANCE

STORAGE

CAPACITOR

100pF

RC 1MΩRD 1500Ω

HIGH-

VOLTAGE

SOURCE

DEVICE-

UNDER-

TEST

Figure 3a. Human Body ESD Test Model

IP 100%

90%

36.8%

tRL TIME

tDL

CURRENT WAVEFORM

PEAK-TO-PEAK RINGING

(NOT DRAWN TO SCALE)

10%

AMPERES

Figure 3b. Human Body Current Waveform

±15kV ESD Protection

As with all Maxim devices, ESD-protection structures are

incorporated on all pins to protect against electrostatic

discharges encountered during handling and assembly.

The I/O VCC lines have extra protection against static

electricity. Maxim’s engineers have developed state-of-

the-art structures to protect these pins against ESD of

±15kV without damage. The ESD structures withstand

high ESD in all states: normal operation, three-state

output mode, and powered down. After an ESD event,

Maxim’s E versions keep working without latchup,

whereas competing products can latch and must be

powered down to remove latchup.

ESD protection can be tested in various ways. The I/O

VCC lines of this product family are characterized for

protection to the following limits:

1) ±15kV using the Human Body Model

2) ±8kV using the Contact Discharge method specified

in IEC 1000-4-2

3) ±10kV using IEC 1000-4-2’s Air-Gap Discharge

method

ESD Test Conditions

ESD performance depends on a variety of conditions.

Contact Maxim for a reliability report that documents

test setup, test methodology, and test results.

Human Body Model

Figure 3a shows the Human Body Model and Figure 3b

shows the current waveform it generates when dis-

charged into a low impedance. This model consists of

a 100pF capacitor charged to the ESD voltage of inter-

est, which is then discharged into the test device

through a 1.5kΩresistor.

IEC 1000-4-2

The IEC 1000-4-2 standard covers ESD testing and

performance of finished equipment; it does not specifi-

cally refer to integrated circuits. The MAX3372E–

MAX3379E and MAX3390E–MAX3393E help to design

equipment that meets Level 3 of IEC 1000-4-2, without

the need for additional ESD-protection components.

The major difference between tests done using the

Human Body Model and IEC 1000-4-2 is higher peak

current in IEC 1000-4-2, because series resistance is

lower in the IEC 1000-4-2 model. Hence, the ESD with-

stand voltage measured to IEC 1000-4-2 is generally

lower than that measured using the Human Body Model.

Figure 4a shows the IEC 1000-4-2 model, and Figure 4b

shows the current waveform for the ±8kV, IEC 1000-4-2,

Level 4, ESD contact-discharge test.

The air-gap test involves approaching the device with a

charged probe. The contact-discharge method con-

nects the probe to the device before the probe

is energized.

Machine Model

The Machine Model for ESD tests all pins using a

200pF storage capacitor and zero discharge resis-

tance. Its objective is to emulate the stress caused by

contact that occurs with handling and assembly during

manufacturing. Of course, all pins require this protec-

tion during manufacturing, not just inputs and outputs.

Therefore, after PCB assembly, the Machine Model is

less relevant to I/O ports.

Applications Information

Power-Supply Decoupling

To reduce ripple and the chance of transmitting incor-

rect data, bypass VLand VCC to ground with a 0.1µF

capacitor. See the

Typical Operating Circuit.

To ensure

full ±15kV ESD protection, bypass VCC to ground with a

1µF capacitor. Place all capacitors as close to the

power-supply inputs as possible.

I2C Level Translation

The MAX3373E–MAX3376E, MAX3378E/MAX3379E

and MAX3390E–MAX3393E level-shift the data present

on the I/O lines between +1.2V and +5.5V, making

them ideal for level translation between a low-voltage

ASIC and an I2C device. A typical application involves

interfacing a low-voltage microprocessor to a 3V or 5V

D/A converter, such as the MAX517.

Push-Pull vs. Open-Drain Driving

All devices in the MAX3372E–MAX3379E and

MAX3390E–MAX3393E family may be driven in a push-

pull configuration. The MAX3373E–MAX3376E/

MAX3378E/MAX3379E and MAX3390E–MAX3393E

include internal 10kΩresistors that pull up I/O VL_ and

I/O VCC_ to their respective power supplies, allowing

operation of the I/O lines with open-drain devices. See

the

Timing Characteristics

table for maximum data rates

when using open-drain drivers.

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

14 Maxim Integrated

tr = 0.7ns to 1ns

30ns

60ns

100%

90%

10%

IPEAK

Figure 4b. IEC 1000-4-2 ESD Generator Current Waveform

CHARGE-CURRENT-

LIMIT RESISTOR

DISCHARGE

RESISTANCE

STORAGE

CAPACITOR

150pF

RC 50MΩ to 100MΩRD 330Ω

HIGH-

VOLTAGE

SOURCE

DEVICE-

UNDER-

TEST

Figure 4a. IEC 1000-4-2 ESD Test Model

MAX3378E–MAX3383E

THREE-STATE

I/O VL_ DATA

DATA I/O VCC_

0.1µF0.1µF1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

Typical Operating Circuit

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

MAX3372E/MAX3373E

THREE-STATE

I/O VL2

I/O VL1

DATADATA I/O VCC2

I/O VCC1

0.1µF0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

MAX3374E

THREE-STATE

I VL2

I VL1

DATADATA

O VCC1

O VCC2

0.1µF0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

Applications Circuits

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

16 Maxim Integrated

Applications Circuits (continued)

MAX3375E

THREE-STATE

I VL2

O VL1

DATADATA O VCC2

I VCC1

0.1µF0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

MAX3376E

THREE-STATE

DATADATA I VCC2

I VCC1

0.1µF0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

O VL2

O VL1

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Applications Circuits (continued)

MAX3377E/MAX3378E

THREE-STATE

I/O VL4

I/O VL3

I/O VL1

I/O VL2 DATADATA

I/O VCC1

I/O VCC2

I/O VCC3

I/O VCC4

0.1µF0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

MAX3379E

THREE-STATE

DATADATA

0.1µF

0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

I VL4

I VL3

I VL1

I VL2

O VCC1

O VCC2

O VCC3

O VCC4

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

18 Maxim Integrated

Applications Circuits (continued)

MAX3390E

THREE-STATE

DATADATA

0.1µF

0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

I VL4

O VL1

I VL2

I VL3

I VL1

O VCC2

O VCC3

O VCC4

MAX3391E

THREE-STATE

DATADATA

0.1µF

0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

I VL4

O VL1

O VL2

I VL3

I VCC1

I VCC2

O VCC3

O VCC4

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Applications Circuits (continued)

MAX3392E

THREE-STATE

DATADATA

0.1µF

0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

I VL4

O VL1

O VL2

O VL3

I VCC1

I VCC2

I VCC3

O VCC4

MAX3393E

THREE-STATE

DATADATA

0.1µF

0.1µF 1µF

+3.3V+1.8V

VCC

+3.3V

SYSTEM

+1.8V

SYSTEM

CONTROLLER

I VL4

O VL1

O VL2

O VL3

I VCC1

I VCC2

I VCC3

I VCC4

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

20 Maxim Integrated

Ordering Information (continued)

PART TEMP RANGE PIN-

PACKAGE

MAX3372EEBL+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3372EETA+T -40°C to +85°C 8 TDFN-EP**

(3mm x 3mm)

MAX3373EEKA+T -40°C to +85°C 8 SOT23

MAX3373EEBL+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3373EETA+T -40°C to +85°C 8 TDFN-EP**

(3mm x 3mm)

MAX3374EEKA+T -40°C to +85°C 8 SOT23

MAX3374EEBL+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3374EETA+T -40°C to +85°C 8 TDFN-EP**

(3mm x 3mm)

MAX3375EEKA+T -40°C to +85°C 8 SOT23

MAX3375EEBL+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3375EETA+T -40°C to +85°C 8 TDFN-EP**

(3mm x 3mm)

MAX3376EEKA+T -40°C to +85°C 8 SOT23

MAX3376EEBL+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3376EETA+T -40°C to +85°C 8 TDFN-EP**

(3mm x 3mm)

MAX3377EEUD+ -40°C to +85°C 14 TSSOP

MAX3377EEBC+T -40°C to +85°C 9 UCSP

(1.5mm x 1.5mm)

MAX3377EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3378EEUD+ -40°C to +85°C 14 TSSOP

PART TEMP RANGE PIN-

PACKAGE

MAX3378EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3378EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3379EEUD+ -40°C to +85°C 14 TSSOP

MAX3379EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3379EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3390EEUD+ -40°C to +85°C 14 TSSOP

MAX3390EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3390EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3391EEUD+ -40°C to +85°C 14 TSSOP

MAX3391EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3391EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3392EEUD+ -40°C to +85°C 14 TSSOP

MAX3392EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3392EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

MAX3393EEUD+ -40°C to +85°C 14 TSSOP

MAX3393EEBC+T -40°C to +85°C 12 UCSP

(1.5mm x 2.0mm)

MAX3393EETD+T -40°C to +85°C 14 TDFN-EP**

(3mm x 3mm)

Denotes a lead-free package.

EP = Exposed pad.

T = Tape and reel.

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Selector Guide

PART

LEVEL

TRANS-

LATION

Tx/

Rx†

DATA

RATE

TOP

MARK

MAX3372EEKA+T  Bi

2/2

AAKO

MAX3372EEBL+T  Bi

2/2

AAR

MAX3372EETA+T  Bi

2/2

230kbps

AQG

MAX3373EEKA+T  Bi

2/2

AAKS

MAX3373EEBL+T  Bi

2/2

AAZ

MAX3373EETA+T  Bi

2/2

AQH

MAX3374EEKA+T Uni

2/0

AALH

MAX3374EEBL+T Uni

2/0

ABA

MAX3374EETA+T Uni

2/0

AQI

MAX3375EEKA+T Uni

1/1

AALI

MAX3375EEBL+T Uni

1/1

ABB

MAX3375EETA+T Uni

1/1

AQJ

MAX3376EEKA+T Uni

0/2

AALG

MAX3376EEBL+T Uni

0/2

AAV

MAX3376EETA+T Uni

0/2

8Mbps*

AQK

MAX3377EEUD+  Bi

4/4

—

MAX3377EEBC+T  Bi

4/4

AAX

MAX3377EETD+T  Bi

4/4

230kbps

AAG

PART

LEVEL

TRANS-

LATION

Tx/

Rx†

DATA

RATE

TOP

MARK

MAX3378EEUD+  Bi

4/4

—

MAX3378EEBC+T  Bi

4/4

AAY

MAX3378EETD+T  Bi

4/4

AAH

MAX3379EEUD+ Uni

4/0

—

MAX3379EEBC+T Uni

4/0

AAZ

MAX3379EETD+T Uni

4/0

AAI

MAX3390EEUD+ Uni

3/1

—

MAX3390EEBC+T Uni

3/1

ABA

MAX3390EETD+T Uni

3/1

AAJ

MAX3391EEUD+ Uni

2/2

—

MAX3391EEBC+T Uni

2/2

ABB

MAX3391EETD+T Uni

2/2

AAK

MAX3392EEUD+ Uni

1/3

—

MAX3392EEBC+T Uni

1/3

ABC

MAX3392EETD+T Uni

1/3

AAL

MAX3393EEUD+ Uni

0/4

—

MAX3393EEBC+T Uni

0/4

ABD

MAX3393EETD+T Uni

0/4

8Mbps*

AAM

†

Tx = VL

→

VCC, Rx = VCC

→

Higher data rates are possible (see the Timing Characteristics table).

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

22 Maxim Integrated

9 UCSP (1.5mm x 1.5mm)

BOTTOM VIEW

VCC

I VCC1

I VCC2

O VL1

O VL2

N.C.

GND

THREE-STATE

9 UCSP (1.5mm x 1.5mm)

BOTTOM VIEW

VCC

O VCC1

I VCC2

I VL1

O VL2

N.C.

GND

THREE-STATE

9 UCSP (1.5mm x 1.5mm)

BOTTOM VIEW

VCC

O VCC1

O VCC2

I VL1

I VL2

N.C.

GND

THREE-STATE

9 UCSP (1.5mm x 1.5mm)

BOTTOM VIEW

VCC

I/O VCC1

I/O VCC2

I/O VL1

I/O VL2

N.C.

GND

THREE-STATE

I VL1I VL2

O VCC1

VCC

GND

O VCC2

SOT23-8

TOP VIEW

MAX3374E

THREE-STATE

O VL1I VL2

I VCC1

VCC

GND

O VCC2

SOT23-8

TOP VIEW

MAX3375E

THREE-STATE

O VL1O VL2

I VCC1

VCC

GND

I VCC2

SOT23-8

TOP VIEW

MAX3376E

THREE-STATE

I/O VL1I/O VL2

I/O VCC1

VCC

GND

I/O VCC2

SOT23-8

TOP VIEW

MAX3372E

MAX3373E

THREE-STATE

I/O VL1

I/O VCC1

I/O VL2

GND

VCC

*CONNECT EP TO GND

I/O VCC2

TDFN-8 (3mm x 3mm)

TOP VIEW

THREE-STATE

I VL1

O VCC1

I VL2

GND

VCC

O VCC2

TDFN-8 (3mm x 3mm)

TOP VIEW

THREE-STATE

O VL1

I VCC1

I VL2

GND

VCC

O VCC2

TDFN-8 (3mm x 3mm)

TOP VIEW

THREE-STATE

O VL1

I VCC1

O VL2

GND

VCC

I VCC2

TDFN-8 (3mm x 3mm)

TOP VIEW

*EP

Pin Configurations (continued)

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Maxim Integrated

Pin Configurations (continued)

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC I/O VCC1

I/O VCC2

I/O VCC3

I/O VL3

I/O VL2

I/O VL1

I/O VCC4

GND

I/O VL4

THREE-STATE

VCC

O VCC1

O VCC2

O VCC3I VL3

I VL2

I VL1

MAX3379E

O VCC4

N.C.

THREE-STATEGND

N.C.

I VL4

TSSOP-14

TOP VIEW

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC O VCC1

O VCC2

O VCC3

I VL3

I VL2

I VL1

O VCC4

GND

I VL4

THREE-STATE

VCC

I VCC1

O VCC2

O VCC3I VL3

I VL2

O VL1

MAX3390E

O VCC4

N.C.

THREE-STATEGND

N.C.

I VL4

TSSOP-14

TOP VIEW

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC I VCC1

O VCC2

O VCC3

I VL3

I VL2

O VL1

O VCC4

GND

I VL4

THREE-STATE

VCC

I/0 VCC1

I/0 VCC2

I/0 VCC3I/O VL3

I/O VL2

I/O VL1

MAX3377E

MAX3378E

I/0 VCC4

N.C.

THREE-STATEGND

N.C.

I/O VL4

TSSOP-14

TOP VIEW

VCC

I/0 VCC1

I/0 VCC2

N.C.N.C.

I/O VL2

I/O VL1

I/0 VCC3

GND

I/O VL4

I/O VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

I/0 VCC4

VCC

0 VCC1

0 VCC2

N.C.N.C.

I VL2

I VL1

0 VCC3

GND

I VL4

I VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

0 VCC4

VCC

I VCC1

0 VCC2

N.C.N.C.

I VL2

O VL1

0 VCC3

GND

I VL4

I VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

0 VCC4

*CONNECT EP TO GND

*EP

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

24 Maxim Integrated

Pin Configurations (continued)

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC I VCC1

I VCC2

I VCC3

O VL3

O VL2

O VL1

I VCC4

GND

O VL4

THREE-STATE

VCC

I VCC1

I VCC2

I VCC3O VL3

O VL2

O VL1

MAX3393E

I VCC4

N.C.

THREE-STATEGND

N.C.

O VL4

TSSOP-14

TOP VIEW

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC I VCC1

I VCC2

I VCC3

O VL3

O VL2

O VL1

O VCC4

GND

I VL4

THREE-STATE

VCC

I VCC1

I VCC2

I VCC3O VL3

O VL2

O VL1

MAX3392E

O VCC4

N.C.

THREE-STATEGND

N.C.

I VL4

TSSOP-14

TOP VIEW

VCC

I VCC1

I VCC2

O VCC3I VL3

O VL2

O VL1

MAX3391E

O VCC4

N.C.

THREE-STATEGND

N.C.

I VL4

TSSOP-14

TOP VIEW

12 UCSP (1.5mm x 2.0mm)

BOTTOM VIEW

VCC I VCC1

I VCC2

O VCC3

I VL3

O VL2

O VL1

O VCC4

GND

I VL4

THREE-STATE

VCC

I VCC1

I VCC2

N.C.N.C.

O VL2

O VL1

0 VCC3

GND

I VL4

I VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

0 VCC4

VCC

I VCC1

I VCC2

N.C.N.C.

O VL2

O VL1

I VCC3

GND

I VL4

O VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

0 VCC4

VCC

I VCC1

I VCC2

N.C.N.C.

O VL2

O VL1

I VCC3

GND

O VL4

O VL3

TDFN-14 (3mm x 3mm)

TOP VIEW

THREE-STATE

I VCC4

*CONNECT EP TO GND

*EP

MAX3372E–MAX3379E/MAX3390E–MAX3393E
±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad 
Low-Voltage Level Translators in UCSP
25
Maxim Integrated
Chip Information
PROCESS: BiCMOS
Package Information
For the latest package outline information and land patterns (foot-
prints), 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.
PACKAGE
TYPE
PACKAGE
CODE OUTLINE NO. LAND
PATTERN NO.
8 SOT23 K8SN+1 21-0078 90-0176
9 UCSP B9+2 21-0093
Refer to
Application
Note 1891
12 UCSP B12+1 21-0104
Refer to
Application
Note 1891
8 TDFN T833+2 21-0137 90-0059
14 TDFN T1433+2 21-0137 90-0063
14 TSSOP U14+1 21-0066 90-0113

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 specifications 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 160 Rio Robles, San Jose, CA 95134 USA 1-408-601-1000

MAX3372E–MAX3379E/MAX3390E–MAX3393E

±15kV ESD-Protected, 1µA, 16Mbps, Dual/Quad

Low-Voltage Level Translators in UCSP

Revision History

REVISION

NUMBER

REVISION

DATE DESCRIPTION PAGES

CHANGED

0 1/02 Initial Release —

1 12/06 Addition of 12-bump ECSP packaging –

2 11/07 Addition of lead-free options 1, 20–31

3 1/13 Updated packaging information; updated Absolute Maximum Ratings 1, 2, 9, 20–23

Mouser Electronics

Authorized Distributor

Click to View Pricing, Inventory, Delivery & Lifecycle Information:

Maxim Integrated:

MAX3373EEKA+T MAX3378EEUD+ MAX3379EEUD+ MAX3391EEUD+ MAX3372EEKA+T MAX3373EEKA/V+T

MAX3374EEKA+T MAX3375EEKA+T MAX3377EETD+T MAX3377EEUD+ MAX3377EEUD+T MAX3378EEBC+T

MAX3378EETD+T MAX3378EEUD+T MAX3379EEUD+T MAX3390EEUD+ MAX3390EEUD+T MAX3391EEUD+T

MAX3392EEUD+ MAX3392EEUD+T MAX3393EEUD+ MAX3393EEUD+T MAX3378EEBC-T