Product Information

MAX1969EUI+

MAX1969EUI+ electronic component of Analog Devices

Datasheet
Power Management Specialised - PMIC Power Drivers for Peltier TEC Modules

Manufacturer: Analog Devices
This product is classified as Large/Heavy, additional shipping charges may apply. A customer service representative may contact you after ordering to confirm exact shipping charges



Price (USD)

1: USD 51.7444 ea
Line Total: USD 51.7444

0 - Global Stock
MOQ: 1  Multiples: 1
Pack Size: 1
Availability Price Quantity
0 - Global Stock


Ships to you between Thu. 04 Apr to Wed. 10 Apr

MOQ : 1
Multiples : 1

Stock Image

MAX1969EUI+
Analog Devices

1 : USD 51.7444
10 : USD 44.7064
50 : USD 42.8321
100 : USD 38.8159
250 : USD 37.4771

0 - Global Stock


Ships to you between Wed. 10 Apr to Fri. 12 Apr

MOQ : 1
Multiples : 1

Stock Image

MAX1969EUI+
Analog Devices

1 : USD 47.0484
10 : USD 41.7375
25 : USD 39.8596
50 : USD 39.8475
100 : USD 35.6314
250 : USD 35.1589
500 : USD 33.9836

     
Manufacturer
Product Category
RoHS - XON
Icon ROHS
Series
Type
Mounting Style
Package / Case
Output Current
Minimum Operating Temperature
Maximum Operating Temperature
Packaging
Number Of Outputs
Output Voltage
Supply Current
Brand
Maximum Power Dissipation
Number Of Drivers
Factory Pack Quantity :
Supply Voltage - Max
Supply Voltage - Min
Technology
Cnhts
Hts Code
Mxhts
Operating Supply Current
Pd - Power Dissipation
Product Type
Subcategory
Taric
LoadingGif

Notes:- Show Stocked Products With Similar Attributes.
Image Description
102781-HMC272AMS8 electronic component of Analog Devices 102781-HMC272AMS8

- HMC272AMS8E Mixer 1.7GHz ~ 3GHz Evaluation Board
Stock : 0

104991-HMC327MS8G electronic component of Analog Devices 104991-HMC327MS8G

Analog Devices Hittite RF Development Tools Eval PCB
Stock : 0

105706-HMC384LP4 electronic component of Analog Devices 105706-HMC384LP4

Analog Devices Hittite Clock & Timer Development Tools Eval PCB
Stock : 0

105706-HMC506LP4 electronic component of Analog Devices 105706-HMC506LP4

Analog Devices Hittite Clock & Timer Development Tools Eval PCB
Stock : 0

107384-HMC493LP3 electronic component of Analog Devices 107384-HMC493LP3

RF Development Tools HMC493LP3 Evaluation PCB
Stock : 0

107755-HMC454ST89 electronic component of Analog Devices 107755-HMC454ST89

Sub-GHz Development Tools HMC454ST89 Evaluation PCB, 900 MHz
Stock : 0

108190-HMC591LP5 electronic component of Analog Devices 108190-HMC591LP5

RF Development Tools HMC591LP5 Evaluation PCB
Stock : 0

106137-HMC370LP4 electronic component of Analog Devices 106137-HMC370LP4

Analog Devices Hittite RF Development Tools Eval PCB
Stock : 0

106137-HMC443LP4 electronic component of Analog Devices 106137-HMC443LP4

RF Development Tools HMC443LP4 Evaluation PCB
Stock : 0

109266-HMC550A electronic component of Analog Devices 109266-HMC550A

RF Development Tools HMC550A EVALUATION PCB ASSEMBLY
Stock : 0

Image Description
MC1378 electronic component of NXP MC1378

MC1378 INTEGRATED CIRCUIT T/HOLE
Stock : 0

LP2997MR electronic component of Texas Instruments LP2997MR

Power Management Specialised - PMIC DDR-II Termination Regulator 8-SO PowerPAD 0 to 125
Stock : 0

ADT7462ACPZ-REEL electronic component of ON Semiconductor ADT7462ACPZ-REEL

Fan Control, Temp Monitor -40°C ~ 125°C, External Sensor Internal and External Sensor SMBus Output 32-LFCSP-VQ (5x5)
Stock : 0

NCP81111MNDFTXG electronic component of ON Semiconductor NCP81111MNDFTXG

Voltage Regulators - Switching Regulators MULTIPHASECONTROLLER
Stock : 0

MC33FS4500CAE electronic component of NXP MC33FS4500CAE

Power Management Specialized - PMIC System Basis Chip, linear 0.5A Vcore, CAN, LQFP48EP
Stock : 0

MC33FS4501CAE electronic component of NXP MC33FS4501CAE

Power Management Specialized - PMIC System Basis Chip, Linear 0.5A Vcore, FS1b, CAN, LQFP48EP
Stock : 0

BL6526B electronic component of Belling BL6526B

PMIC - Current Regulation SOP-16 RoHS
Stock : 0

MC33PF8101A0ES electronic component of NXP MC33PF8101A0ES

Power Management Specialised - PMIC Power Management IC, i.MX8, non-prog, 5 buck, 3 LDO, Auto, QFN 56
Stock : 0

WS3202K-3/TR electronic component of Will Semiconductor WS3202K-3/TR

PMIC - Supervisors SOT-89-3L RoHS
Stock : 0

LP78071SPF electronic component of LOWPOWER LP78071SPF

Power Management Specialized - PMIC ESOP-8 RoHS
Stock : 0

EVALUATION KIT AVAILABLE Power Drivers for Peltier TEC Modules MAX1968/MAX1969 General Description Benefits and Features The MAX1968/MAX1969 are highly integrated and cost- High Accuracy and Adjustability Improves System effective, high-efficiency, switch-mode drivers for Peltier Performance by Optimizing TEC Operation thermoelectric cooler (TEC) modules. Both devices Direct Current Control Prevents TEC Current Surges utilize direct current control to eliminate current surges Ripple Cancellation for Low Noise in the TEC. On-chip FETs minimize external components No Dead-Zone or Hunting at Low-Output Current while providing high efficiency. A 500kHz/1MHz switch- 1% Accurate Voltage Reference ing frequency and a unique ripple cancellation scheme Adjustable TEC Voltage Limit reduce component size and noise. Separately Adjustable Heating and Cooling Current The MAX1968 operates from a single supply and pro- Limits vides bipolar 3A output by biasing the TEC between ITEC Output Provides Proportional Voltage to TEC the outputs of two synchronous buck regulators. Current for Monitoring Bipolar operation allows for temperature control without High-Efficiency Switch-Mode Design dead zones or other nonlinearities at low load On-Chip Power MOSFETs Improve Efficiency While currents. This arrangement ensures that the control Reducing External Components system does not hunt when the set point is very close 500kHz/1MHz Switching Frequency to the natural operating point, requiring a small amount Choose from 3A Output Current (MAX1968) or 6A of heating or cooling. An analog control signal precisely sets the TEC current. The MAX1969 provides unipolar Output Current (MAX1969) output up to 6A. Reliability is optimized with settable Thermally Enhanced TSSOP-EP Package Minimizes limits for both TEC voltage and current, with indepen- Operating Junction Temperature dently set limits for heating and cooling current. An analog output also monitors TEC current. Ordering Information The MAX1968/MAX1969 are available in a low-profile 28-pin TSSOP-EP package and is specified over the PART TEMP RANGE PIN-PACKAGE -40C to +85C temperature range. The thermally MAX1968EUI -40C to +85C 28 TSSOP-EP* enhanced TSSOP-EP package with exposed metal pad MAX1969EUI -40C to +85C 28 TSSOP-EP* minimizes operating junction temperature. An evalua- tion kit is available to speed designs. *EP = Exposed pad. Applications Typical Operating Circuit Fiber Optic Laser Modules WDM, DWDM Laser Diode Temperature Control 3V TO TEC CURRENT- 5.5V Fiber Optic Network Equipment CONTROL SIGNAL EDFA Optical Amplifiers Telecom Fiber Interfaces ATE V CTLI PV 1PV 2 Biotech Lab Equipment DD DD DD PGND1 PGND2 COMP MAX1968 LX1 LX2 GND OS2 OS1 CS TEC Pin Configuration and Functional Diagram appear at end of data sheet. 19-2447 Rev 3 5/15Power Drivers for Peltier TEC Modules MAX1968/MAX1969 Absolute Maximum Ratings V to GND..............................................................-0.3V to +6V Peak LX Current (MAX1968) (Note 1).................................4.5A DD Peak LX Current (MAX1969) (Note 1)....................................+9A SHDN, MAXV, MAXIP, MAXIN, CTLI, Continuous Power Dissipation (T = +70C) A FREQ to GND .......................................................-0.3V to +6V 28-Pin TSSOP-EP (derate 23.8mW/C above +70C).....1.9W COMP, OS1, OS2, CS, REF, Operating Temperature Range ...........................-40C to +85C ITEC to GND...........................................-0.3V to (V + 0.3V) DD Maximum Junction Temperature .....................................+150C PV 1, PV 2 to GND...............................-0.3V to (V + 0.3V) DD DD DD Storage Temperature Range .............................-65C to +150C PV 1, PV 2 to V -0.3V to +0.3V DD DD DD .................................................. Lead Temperature (soldering 10s) ..................................+300C PGND1, PGND2 to GND .......................................-0.3V to +0.3V COMP, REF, ITEC Short to GND ...................................Indefinite Note 1: LX has internal clamp diodes to PGND and PV . Applications that forward bias these diodes should take care not to DD exceed the ICs package power dissipation limits. Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Electrical Characteristics (V = PV 1 = PV 2 = SHDN = 5V, PGND1 = PGND2 = FREQ = GND, CTLI = MAXV = MAXIP = MAXIN = REF, C = 1F, DD DD DD REF C = 0.1F, L = 3.3H, C = C = 1F, I < 3A (MAX1968), I < 6A (MAX1969), T = 0C to +85C, unless COMP LX CS OS2 TEC RMS TEC RMS A otherwise noted. Typical values are at T = +25C.) A PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Input Supply Range V 3.0 5.5 V DD V = 5V, I = 0 to 3A, DD TEC -4.3 +4.3 V = V - V (MAX1968) OUT OS1 OS2 V = 5V, I = 0 to 6A, DD TEC 4.3 V = V (MAX1969) OUT OS1 Output Voltage Range V V OUT V = 3V, I = 0 to 3A, DD TEC -2.3 +2.3 V = V - V (MAX1968) OUT OS1 OS2 V = 3V, I = 0 to 6A, DD TEC 2.3 V = V (MAX1969) OUT OS1 MAX1968 3 Maximum TEC I A TEC(MAX) Current MAX1969 6 Reference Voltage V V = 3V to 5.5V, I = 150A 1.485 1.500 1.515 V REF DD REF Reference Load V V = 3V to 5.5V, I = +10A to -1mA 1.2 5 mV REF DD REF Regulation V = V 140 150 160 MAXI REF V < V OS1 CS V = V /3 40 50 60 Current-Sense MAXI REF mV Threshold Accuracy V = V 140 150 160 MAXI REF V > V OS1 CS V = V /3 40 50 60 MAXI REF Switch-Fault Reset 50 150 250 mV Voltage V = 5V, I = 0.5A 0.04 0.07 DD NFET On-Resistance R DS(ON-N) V = 3V, I = 0.5A 0.06 0.08 DD V = 5V, I = 0.5A 0.06 0.10 DD PFET On-Resistance R DS(ON-P) V = 3V, I = 0.5A 0.09 0.12 DD V = V = 5V, T = +25C 0.02 10 LX DD A NFET Leakage I A LEAK(N) V = V = 5V, T = +85C 1 LX DD A www.maximintegrated.com Maxim Integrated 2

Tariff Desc

8542.31.00 51 No ..Application Specific (Digital) Integrated Circuits (ASIC)

Electronic integrated circuits: Processors and controllers, whether or not combined with memories, converters, logic circuits, amplifiers, clock and timing circuits, or other circuits
Monolithic integrated circuits:
AD4
ANALOG DEVICES
Analog Devices Hittite
ANALOG DEVICES (LINEAR TECHNOLOGY)
ANALOG DEVICES (MAXIM INTEGRATED)
ANALOG DEVICES (TRINAMIC)
Analog Devices / Hittite
Analog Devices / Linear Technology
Analog Devices Inc
Analog Devices Inc.
Analog Devices, Inc.
DA4
Dallas
DALLAS / MAXIM
Dallas Semiconductor (VA)
LINEAR
LINEAR TECH
Linear Technology
Linear Technology (part of ADI)
LT
LT4
MAXIM
Maxim Integrated
MAXIM INTEGRATED / ANALOG DEVICES
Maxim Integrated Products
MAXIM-DALLAS
MX4
Technology
Trinamic
TRINAMIC / ANALOG DEVICES
Trinamic Motion Control
Trinamic Motion Control GmbH

Looking for help? Visit our FAQ's Section to answer to all your questions

 

X-ON Worldwide Electronics

Welcome To X-ON ELECTRONICS
For over three decades, we have been advocating and shaping the electronic components industry. Our management complements our worldwide business scope and focus. We are committed to innovation, backed by a strong business foundation. If you need a trustworthy supplier of electronic components for your business – look no further.
 

Copyright ©2024  X-ON Electronic Services. All rights reserved.
Please ensure you have read and understood our Terms & Conditions before purchasing.
All prices exclude GST.

Image for all the cards that are accepted Image for all the cards that are accepted Image for all the cards that are accepted Image for all the cards that are accepted Image for all the cards that are accepted