military/aerospace product guide, 2nd ed
TRANSCRIPT
3 Introduction 4 Obsolescence Mitigation Program 5 Lead-Finish Program 6 Ruggedized Plastic Parts for Mil/Aero Applications 7 High-Precision Analog-to-Digital Converters Connect the Real World to the Digital World 8 Choose from the Industry's Largest Selection of I2C ADCs 9 Simplify Design and Reduce Cost in Military Applications10 Maxim’s RF ASIC Design Services12 Power and Battery Management12 Proven Electronic Authentication Solutions Identify Military Battery Packs13 Stingy on Power, Small in Size, High in Efficiency14 Simple, Safe, Small Li+ Battery Chargers Efficiently Manage Your Power Path15 Highly Integrated Chargers Provide Reliability and Flexibility for Handheld Military Devices16 Maxim's Smart Power Selector Circuitry Enables Efficient Power Distribution17 Rugged Power-Management ICs for Harsh Mil/Aero Environments to +125°C18 Programmable Spread-Spectrum SerDes Chipsets Reduce EMI in Military GPS Devices19 Reduce EMI and Cost in Military GPS Navigation Systems20 DRFM Radar Systems20 Very Small Aperture Terminal (VSAT)22 Handheld/Portable25 RS-232 Transceivers Allow Communication with Military Legacy Devices26 If It's Electronic, It Needs a Clock28 Analog Switches and Multiplexers29 Broadest Selection of Innovative Microprocessor Supervisory Solutions31 Featured Discussion: Microprocessor Supervisors32 Point-of-Load Regulators Provide Protection for FPGAs in Mil/Aero Applications33 High-Performance Regulators with High Reliability Over a Wide Operating Range33 Overvoltage Protectors Prevent Damage to Downstream Critical Circuitry34 Video Decoders for Low-Cost, Reliable, Advanced UAS/UCAV Vision Systems35 High-Performance Video Decoder Delivers Excellent Digital Video Quality36 Security Managers38 Complete GPS, Galileo, GLONASS, and Compass Front-Ends
Table of Contents
2
www.maximintegrated.comMil/Aero Product Guide
www.maximintegrated.com Mil/Aero Product Guide
3
Introduction
Maxim Integrated has been a supplier of quality devices to the military/aerospace community for over 25 years. Maxim is an approved supplier to virtually all the world’s leading military and aerospace OEMs and is also on the preferred vendor list at many of these same manufacturers.
With this product guide and our updated web pages, we are continuing our efforts to become more visible to the entire breadth of the military and aerospace community. In this product guide, you will find a brief overview of a few of Maxim’s more than 10,000 parts with suggestions for some possible applications.
Before you dive into the details of each device, we encourage you to review the first few pages of this guide. On these pages, we cover three exclusive Maxim programs targeted at solving the biggest problems facing the military/aerospace OEMs today:
• Device obsolescence • We solve the problem where you “run out of parts before you run out of program.”
• Lead (SnPb) finish • We can offer a SnPb finish for virtually any Maxim part—just ask!
• Full military temperature range • We have a program to characterize non-military temperature parts for military temperature
applications—called Ruggedized Plastic.
As you peruse the pages of this guide, note that for every component listed we have dozens more. If you do not see a solution to your problem, just ask us. We are constantly innovating new solutions—a new part every day!
Sincerely,
John O’Boyle Senior Manager, Military Aerospace Group
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Obsolescence Mitigation ProgramCOTS Parts for Long-Life ProgramsThe move by military primes to commercial-off-the-shelf (COTS) parts has brought the expected benefit of lower cost to finished assemblies. However, accompanying that has been the early obsolescence of the COTS parts themselves. An unintended consequence of the cost-containment move is that the prime will run out of the industrial-grade part before he runs out of program. To address this situation, Maxim’s Mil/Aero group has designed a special program for primes or any customer with long-life programs using Maxim plastic parts. When the Maxim part is announced as a last-time buy (LTB), the prime/customer can do one of the following three options:• Redesign the impacted board
• Costly, since redesign is expensive• Purchase sufficient devices in LTB for expected program duration
• Risky, due to possible large cash outlay and need for special long-term, moisture-free storage of parts • Uncertain, because program may not remain in force for projected duration, or may go longer
• Contact Maxim’s Mil/Aero group for the obsolescence mitigation (OM) program described below (recommended)When the customer discovers that a Maxim part on their BOM is being made obsolete, they should contact Maxim’s Mil/Aero group to discuss the OM program. Maxim posts obsolescence notices with DLA and with GIDEP. Maxim and our distributor AVNET also notify customers that have purchased a given part within the past two years.
Parameters• Any Maxim plastic part, leaded or lead-free, any temperature range• Not limited to military-only parts
Procedure1. The customer and Maxim’s Mil/Aero group collaborate on the needs and terms2. Dialogue must commence BEFORE the LTB date to ensure that the Mil/Aero group can secure wafers3. Customer defines the length of program in years and the quantity needed for the remaining life of the program4. Maxim’s Mil/Aero group calculates the number of wafers needed to support this requirement5. Customer places order for first-year demand
• First-year demand is defined as the total life quantity divided by the number of years • Maxim builds first-year demand • Maxim sets aside remaining required wafers plus sufficient extra wafers for possible program extension or increase in
annual demand (Note: Parts are set aside ONLY after first order)6. Set-aside wafers held for single customer only; no one else, even from the same firm, can have access7. Minimum order quantity (MOQ) for any given buy is 500 pieces8. No obligation to order after initial purchase9. Customer can place order for any quantity (MOQ = 500) in years two through n
• If customer cancels program, Maxim closes out storage and scraps wafers at no extra charge to customer
Customer Benefits• Design in a Maxim part knowing that, if it becomes obsolete during the life of the program, the customer can work with
Maxim’s Mil/Aero group to ensure a supply for life• Future-built parts will have then-current date codes
• LTB parts all have the same date code; OM program parts built in the future will have future date codes • No storage charge for wafers
www.maximintegrated.com/OMprogram
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Lead-Finish ProgramMaxim’s Mil/Aero group offers two lead (SnPb)-finish options to customers who require lead-finished products instead of the standard RoHS-compliant (lead-free) COTS parts. These special programs, one for low volumes and another for high volumes, apply to virtually any Maxim COTS plastic part.*
Hot-Solder Dip for Low Volumes• Take lead-free parts from inventory
• Must have inventory for this to happen• Remove pure tin finish and replace with 63/37 SnPb solder
• XRF to make sure no pure tin remains; XRF report available• Parts marked with orange color (dot) per GEIA-STD-0006• 100% electrical test with original Maxim QCI test program• Maxim warranty applies• MOQ = 50• Typical lead time is approximately 6 weeks (±2 weeks)• Particularly suited for spares and prototyping
Lead Electroplate for High Volumes• Designed for applications that require a lead-finished part in higher volumes• Take wafer from production line or wafer stores
• Must have inventory or work in progress for this to happen• Manufacture on conventional lead (SnPb) manufacturing flow
• Same way parts were built before RoHS initiative• 100% electrical test with Maxim QCI test program• Maxim warranty applies• MOQ is a function of the number of die on a wafer• Lead time is a function of wafer inventory
www.maximintegrated.com/lead-finish
*Some devices cannot be finished in lead. In addition, a small number of devices cannot be hot-solder dipped because they are physically too small and may crack during processing. Preprocessing only supports lead-free production. For more information, contact Maxim's Military Business Manager at www.maximintegrated.com/lead-finish.
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Ruggedized Plastic Parts for Mil/Aero ApplicationsMaxim offers ruggedized plastic-packaged ICs for stressful, high-reliability military and aerospace applications where moisture resistance is not an issue. A “ruggedized” product is one that has been burned-in and tested to military specifications. Usually, ruggedized products are packaged in hermetic packages. However, some military and aerospace applications do not require the expense of a full hermetic package, but do require high-reliability processing. For such applications, Maxim’s ruggedized military plastic products fulfill this processing requirement and can be thought of as super-COTS products. All of Maxim’s ruggedized plastic parts ship with a Certificate of Compliance, just as the full military specified hermetic devices do.Realizing that many military customers do board-level burn-in and temperature cycling, Maxim offers our ruggedized plastic in various configurations to meet your needs.
V62-• DLA-controlled, enhanced-temperature, lead (SnPb)-finished plastic-packaged devices
• Also called Vendor Item Drawing
/PR• 100% burn-in at +135°C for 120 hours
• Virtually eliminates all infant mortality issues• 100% tri-temp tested over the entire military temperature range to assure the industry's highest possible reliability in a plastic-
packaged device • The actual device received by the customer has been proven to operate over the full military temperature range
/PR2• No burn-in
• Appropriate for customers that do their own board or system-level burn-in• 100% tri-temp tested over the entire military temperature range to assure highest possible reliability in a plastic-packaged
device • The actual device received by the customer has been proven to operate over the full military temperature range
/PR3• No burn-in or tri-temp testing
• Appropriate for customers doing their own system-level burn-in and tri-temp testing • Devices are tested to more stringent limits to guarantee performance over temperature
The standard lead finish for all three /PR options is 85/15 SnPb electroplating, which eliminates tin whiskers as well as potential (lead-free) solder cracking in the field, especially in high vibration environments.The ruggedized plastic parts are ideal for airborne and other stressful high-reliability applications where moisture resistance is not an issue. Maxim presently offers over 100 specialized ruggedized plastic parts, with more parts continually being added.
www.maximintegrated.com/plastic-ruggedized
VAVDD = 3V VDVDD = 1.7V TO 3.6V
4 GPIOs
DIFFERENTIALANALOG
INPUT
DIFFERENTIALREFERENCE
INPUT
4-WIRE SPI24-BIT
ADCPROGRAMMABLE
GAIN (1 TO 16)
GPIOsSWITCHCONTROL
8MUX
MULTIPLEANALOGINPUTS
INTERNALOSCILLATOR ADC CLOCK
MAX11210
High-impedanceinputs for direct
sensor connection
Eliminates externalamplifiers
8 BIT
10 BIT
12 BIT
14 BIT
16/24 BIT
PANELMETERS
PRECISIONADCs
The Only ADC to Achieve > 23.9 ENOB24
23.5
23
22.5
ENO
B A
T <
1mW
MAX11210 COMP A COMP B
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High-Precision Analog-to-Digital Converters Connect the Real World to the Digital WorldMaxim has the largest ADC product offering in the market—we make over 300 ADCs that provide industry-leading performance and features. We have nearly 100 ADCs that are appropriate for the military and aerospace environment, offering operating temperatures from -55°C to +125°C.• 8- to 24-bit resolution• DC-to-RF conversion rates• Single-ended (SE), true differential, unipolar, bipolar,
and software-selectable input ranges• 1, 2, 4, 8, 12, and 16 channels• I2C-/SPI-/QSPI™-/MICROWIRE®-compatible serial and
parallel interfaces
Best ENOB Available for Low-Power, 4−20mA Applications
• 23.9 effective bits at 230µA• 300µA (max) active, < 0.40µA in sleep mode
Reduces System Cost and Size
• No external buffers or amplifiers required• Packages as small as 15mm2
24-Bit ADC Has the Best ENOB at < 1mW
12-CHANNEL
MUX
AIN0
AIN11/VREF
12-BITSAR ADC
SDASelectable
unipolar/bipolarsingle-ended/
dierentialinputs
SCL
CLK
REF
2-WIRE, I2C-COMPATIBLE INTERFACERUNS AT 100kHz, 400kHz, AND 1.7MHz
MAX1239
Internal2.5V/4.096V
reference
4 or 12input
channels
161820
14121086420
8 BIT
MAX1036(4CH, 5V)
MAX1037(4CH, 3V)
MAX1038(12CH, 5V)
MAX1039(12CH, 3V)
10 BIT
MAX1136(4CH, 5V)
MAX1137(4CH, 3V)
MAX1138(12CH, 5V)
MAX1139(12CH, 3V)
MAX1361(4CH, 3V)
MAX1362(4CH, 5V)
12 BIT
MAX1236(4CH, 5V)
MAX1237(4CH, 3V)
MAX1238(12CH, 5V)
MAX1239(12CH, 3V)
MAX127(8CH, multirange)
MAX128(8CH, multirange)
MAX1363(4CH, 3V)
MAX1364(4CH, 5V)
14 BIT
MAX1069(1CH, 5V)
16 BIT
MAX1169(1CH, 5V)
I2C ADCs
NUMBER OF I2C ADCs
COMP A COMP B
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Choose from the Industry's Largest Selection of I2C ADCsChoose from 20 ADCsSince introducing the MAX127/MAX128 in 1998, Maxim has continued to expand its I2C ADC product portfolio. The MAX127/MAX128 were the industry’s first 12-bit I2C ADCs and provided 8 channels with a software-programmable input range. We now offer 8-, 10-, and 12-bit ADCs with 4 and 12 channels, and 14- and 16-bit single-channel I2C ADCs. With 20 I2C-compatible ADCs, Maxim has a larger selection than the rest of the competition combined.
MAX1036−MAX1039, MAX1136−MAX1139, MAX1236−MAX1239
• 94.4ksps, ±1 LSB INL, ±1 LSB DNL• Programmable channel-scan mode with FIFO• Multiple I2C addresses available
• Industry’s smallest footprint • 4 channels: 8-pin SOT (8 bit), 8-pin µMAX® (10/12 bit) • 12 channels: 16-pin TSSOP
SFD
R (d
Bc)
40
50
60
70
Superior Spurious-FreeDynamic Range at RF
1000 1200 1400 1600 1800
fOUT (MHz)
MAX19692fDAC = 2.0Gsps
(RF MODE)
NEARESTCOMPETITOR
fDAC = 2.4Gsps(MIX MODE)
> 12dBHIGHER
SFDR
60dBc SFDRat 1800MHz
SFD
R O
VER
1000
MH
z BA
ND
WID
TH (d
Bc)
50
60
70
80
Superior Spurious-Free Dynamic Range and Signal Bandwidth at Baseband
0 500 1000 1500 2000
fOUT (MHz)
LOW-IF CAPABILITY
0MHz < fOUT > 1000MHz
HIGH-IF CAPABILITY
1000MHz < fOUT > 2000MHz
MAX19693fCLK = 2.0GHz
fDAC = 4.0Gsps(NRZ MODE)
NEAREST COMPETITORfCLK = 2.0GHzfDAC = 2.0Gsps
(NORMAL MODE)
DSP1.5GspsDACs
12
12
POWERAMP
WITH THISREPLACE THIS
• Save board space
• Simplify system design
• Lower solution cost
• Reduce power
MAX19692
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Simplify Design and Reduce Cost in Military ApplicationsRF-DAC Family Enables Direct RF and Wideband Communications
The MAX19692 12-bit, 2.3Gsps multi-Nyquist DAC synthesizes signals up to a 1GHz bandwidth in baseband and higher Nyquist zones, thus eliminating the need for upconversion stages in a radio transmitter.
The MAX19693 12-bit, 4.0Gsps wideband DAC synthesizes signals up to 2GHz in baseband zones, thereby eliminating the need for multiple signal chains and an RF combiner. This DAC is pin compatible with the MAX19692, thus providing design flexibility.
Eliminate Upconversion Stages with the MAX19692 Multi-Nyquist DAC
Part Resolution (bits)
Speed (Gsps) DAC Type Nyquist
Zones Typical Applications
MAX19692 12 2.3 Multi-Nyquist 1st, 2nd, 3rd Wireless modems, software-defined radio, radar, waveform generators, direct digital synthesis
MAX19693 12 4.0 Wideband 1st Electronic warfare, jammers, radar, waveform generators, direct digital synthesis
Wafer fabricationManufacturing
Tapeout and maskfabrication
Maxim performs all rule checks; uponsuccessful completion, Maxim orders masks
Design and layoutMaxim designs, simulates,
and lays out the circuit
Die prep and packagingMaxim packages untested prototype die
DefinitionMaxim determines feasibility, establishes
specifications, and selects the process
Production ramp-upFinalize test specification, test development,
and correlation; start production
Delivery of prototypesEvaluate prototypes in your application
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ASIC Design ServicesMaxim’s ASIC design services are available to meet your specific application requirements.
Engagement ModelsTurnkey Design—One-Stop Shop, from Concept to Volume ProductionMaxim transforms your initial product specifications into a production-ready device.
Customer-Designed ASICs Maxim provides: • Process design kit (PDK)• Design guide• Process informationAn ASIC applications engineer is the primary foundry interface for process and package selection through final production.
www.maximintegrated.com/ASICs
Maxim’s RF ASIC Design ServicesCustom-Tailored Solutions for Your Specific Needs
Turnkey ASIC Design Flow
ASIC Design Services Customer Benefits
18 years of experience in the ASIC business
Expertise results in a high first-silicon success rate
Rich analog RF IP catalog, including military and aerospace
Fast time to market; vast application coverage
Optimized in-house process technologies
Controlled environment provides optimal performance-cost tradeoff
ASIC Value Proposition
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Maxim-Provided Design ToolsCadence® tools supported by Maxim include: Analog Artist, Virtuoso® Schematic Editing, Virtuoso ADE, Virtuoso XL Layout Editor, and Assura® Physical Verification. Other tools include:
RF-LPEThis design methodology enhances the accuracy of the Cadence Assura layout parasitic extraction (LPE) simulation tool at RF frequencies up to 10GHz.
DANTEThis Spectre® tool performs transient self-heating and device-to-device cross-heating simulation.
QuERC (Quick Electrical Rule Check)This software warns the designer of junction or gate-oxide breakdown violations, transistor saturation, and excessive resistor or transistor current-density problems during bias or transient simulations.
Maxim’s RF ASIC Design Services (cont.)Flagship Process Technologies
Transceivers• IEEE® 802.16e WiMAX®
• IEEE 802.11a/b/g Wi-Fi®
• GSM, CDMA, WCDMA• Sub-1GHz FSK, ASK• Wireless video• Femto• Point-to-point radio
Tuners• GPS Rx: GPS, GLONASS, Galileo,
digital compass• DBS• DVB• DAB• ISDB• Satellite tuners
Data Converters• ADC and DAC, up to 2Gsps• 1Gsps ADCs• Current-mode DAC• Resistor-string DAC
• Delta-sigma (∆-∑) ADC• Servo ADC• Bias-control DAC
High-Frequency Si and SiGe BiCMOS• NPN fT = 25GHz to 200GHz, BVceo = 2V to 5V (min)• Vertical PNP with 7GHz fT, BVceo = 6V (min)• Lateral PNPs, 3V and 5V CMOS, 2:1 varactor diodes• Poly, NiCr, and SiCr resistors• MOS and high-Q MIM capacitors• Fuse programmable• Three to four metal layers • Wide selection of high-Q inductors• Two SOI processes available
CMOS and RFCMOS• 1.8V/3.3V or 5V CMOS• 28V pMOS and 18V/36V nMOS• NPN and lateral PNP• Thin-film and poly resistors• MIM capacitors• Multiple metal layers and thick top metal• One-time-programmable (OTP) memory
High-Voltage BiCMOS• NPN fT up to 10GHz, BVceo = 5.5V to 40V (min)• Vertical PNP BVceo = 3.6V to 50V (min)• Lateral PNPs BVceo = 7V to 30V (min)• 1.8V to 220V CMOS/DMOS, zeners, poly and SiCr resistors• MOS and MIM capacitors• Fuse programmable• Three to four metal layers• One SOI process
Complementary Bipolar and BiCMOS• NPN fT = 7GHz to 25GHz, BVceo = 12V to 5V (min)• Vertical PNP fT = 4GHz to 6GHz, BVceo = 40V to 4V (min)• 3.3V to 5.5V CMOS, 12V to 40V DMOS• Implanted, poly, NiCr, and SiCr resistors• MOS and high-Q MIM capacitors• Two to three metal layers• One SOI process
Design Examples and Available IP
150Ω
Li+PROTECTION
PACK +
PACK -
DATA
0.22µF
BATTERY PACK
VSS
THM
DQ VB
DS2703
MAXIMPOWER SOLUTIONS
HOT-SWAP ANDPOWER SWITCHING
MOSFET DRIVERS
ISOLATED DC-DCCONVERSION
SWITCHES ANDCHARGE PUMPS
LINEAR REGULATORS
VOUTVIN
DISPLAY POWER
ISOLATED AC-DCCONVERSION
RESETVREF
BATTERYMANAGEMENT
SUPERVISORS ANDSEQUENCING
VOLTAGE REFERENCES
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*Secure Hash Algorithm
Highly Secure
• Secure challenge and response authentication using the SHA-1 algorithm
• Unique 64-bit serial number
Saves Space
• Thermistor multiplexer for single-contact data and thermistor functions
• 8-pin µMAX or 2mm x 3mm TDFN package
Provides Flexibility
• Directly powered by 1-Wire interface with 16kbps standard and 143kbps overdrive communication modes
• Operates with VPULLUP as low as 2.7V
Proven Electronic Authentication Solutions Identify Military Battery PacksMaxim’s battery-pack authentication ICs are an easy way to simplify system design and operation of military batteries. As all communication between the authentication IC and host processor occurs through the 1-Wire® interface, only one contact is needed between the host and battery/accessory, which saves cost and space. Additionally, authentication increases the reliability of operation, which is extremely important in military designs.
SHA-1* Battery-Pack Authentication IC for Robust Cryptographic SolutionsEnsures Li+ Battery-Pack Authenticity for Portable Devices
Power and Battery ManagementMaxim is a world leader in both highly integrated and discrete power-management and battery-charging solutions. We offer over 1800 products for all forms of portable power management, military and aerospace environments, and line-powered conversion.
USB POWERMANAGEMENT
D+
BUS
IIN CONTROL
SET IIN LIMIT
IC THERMALREGULATION
ILIM
ILIM - ISYS
ISYS
ILIM
RTHM
SYSTEM POWER
ICHG_MAX ICHG
UOK
D-D+
GND
D-
VBUS
BAT-
NTC
BAT+
TO USB_TERMRWU
REMOTE WAKE
KB_TM
ISET
THM
CHG
AUTO ENUM
KB TEST
FORCE STBY
DGND GND
FLT
CEN
CT
PREQ
IDN
USB
ID
SUS_EN
ENU_EN
STBY
Li+ BATCHARGER
SYS
BAT
USB_TERM
SYSTEM
CHG ENABLE
FAULT
CHG DONE
SET DONECURRENT
PREQUAL DONE
Li+
VCC
GPIO
GPIO
GPIO
GPIO
GPIO
SET CHGCURRENT
CHARGECURRENT
AND VOLTAGECONTROL
USBINTERFACE
LOGIC
USB 3.3VLDO
CHARGETERMINATIONAND MONITOR
CHARGETIMER
VBUS OK
USB ADAPTER DETECT AND
ENUMERATION
THERMISTORMONITOR
MAX8895X
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Stingy on Power, Small in Size, High in Efficiency1-Cell Li+ Battery-Pack Chargers for Automatic Adapter Detection and USB Enumeration—Ideal for Military ApplicationsThe MAX8895 USB-compliant linear battery charger family offers devices that operate from either a USB port or a dedicated charger with automatic detection of adapter type and USB enumeration capability. The MAX8895 easily handles switchover from adapter and USB to battery power. It allows the system to utilize all available input power when necessary. This enables immediate operation with a dead or missing battery when power is applied.
• Determine the best use of available input power without needing a system to evaluate the power source; needs no microcontroller or system software
• No need for external diodes or MOSFETs• Reduce die temperature with thermal regulation loop
• Distinguish between adapter types • DCP: 500mA to 1.5A • CDP (host or hub): to 900mA (580mA during chirp) for Hi-Speed USB; to 1.5A for low and fast speed • Low-power SDP (host or hub): 100mA • High-power SDP (host or hub): 500mA
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Protection for the Rugged Environment• Charge-status and fault indicators• Power-OK monitors• Input overvoltage protection (OVP)• Charge timers• Battery thermistor monitors• On-chip thermal limiting
Efficient Use of Space• Integrated MOSFET switches reduce external part count• Packages as small as 4mm2
Broad Range of Li+ Battery Chargers
Simple, Safe, Small Li+ Battery Chargers Efficiently Manage Your Power PathA primary function in portable military devices is to charge the battery quickly, while optimally controlling the battery current and voltage based on charging requirements for the specific battery chemistry. This is especially true when deployed in a rugged battlefield environment. When USB power or an AC adapter is connected to the device, a smart battery charger should allow the device to turn on instantly, even if the battery is completely depleted. The charger should also make the best use of limited USB or adapter power and charge the battery with additional input power not used by the system. Additionally, the system load needs to switch from the battery to the external input power source when external input power is available. Maxim offers a wide selection of battery chargers that fulfill these requirements.
Part ICHG (A, max)
Protected VIN (V, max) EV Kit Inputs Features Package
(mm x mm)
MAX8606 1 14 1 Smart Power Selector™, safety timer, thermal regulation 14-TDFN (3 x 3)
MAX8671X 1 14 2 Smart Power Selector, safety timer, thermal regulation, PMIC 40-QFN (4 x 4)
MAX8677 1.5 16 2 Smart Power Selector, safety timer, thermal regulation 24-QFN (4 x 4)
MAX8804 0.7 28 2 Small size, easily programmable 8-TDFN (2 x 3)
MAX8808 1 15 1 1A charging, tiny package 8-TDFN (2 x 2)
MAX8814 0.6 28 1 Smart autoboot assistant 8-TDFN (2 x 2)
MAX8819_ 0.86 5.5 1 Smart Power Selector, safety timer, thermal regulation, PMIC 28-TQFN (4 x 4)
MAX8895 1.85 14 1 Smart Power Selector, auto-enumeration and charger type detection 25-WLP (2.36 x 2.36)
MAX8900 1.2 22 1 Safe JEITA* charging 30-WLP (2.44 x 2.67)
MAX8903 2 20 2 Smart Power Selector, safety timer, switch mode for cool and fast charging 28-QFN (4 x 4)
MAX8922L 1 30 1 GSM test mode 10-TDFN (3 x 2)
MAX8934 1.5 14 2 Smart Power Selector, safety timer, safe JEITA charging 32-QFN (4 x 4)
*JEITA (Japan Electronics and Information Technology Industries Association) standard, “A Guide to the Safe Use of Secondary Lithium Ion Batteries in Notebook-type Personal Computers” April 20, 2007.
AC-ADAPTER
INPUT
USBPORTINPUT
500mA
100mA
ON
OFF
OR
DC
GND
USB
USEL
FAULT
POK
CHG
BAT
THMENSETI CT
MAX8601
Programmable chargetimer can be turned o
by shorting to GND
Three charge-status-indicator outputs
Thermistor input tomonitor battery or
ambient temperature
AC-adapter input with14V OVP
USB charging* with14V OVP
AC-adapter charge currentis adjustable up to 1A
12-TDFN
3m m x 3 mm
14-TDFN
3m m x 3 mm
MAX8844
MAX8845
OVPSAFEUSB
DETBAT
VBUS(USB INPUT)
VCHG(AC-ADAPTER INPUT)
SYSTEM
IN
UP TO 28V
USB
OVP
(MAX8844 ONLY)
(SIMPLIFIED DIAGRAM)
MAX8844MAX8845
Built-in MOSFET and current-sense resistor;
needs no externalblocking diode
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15*USB charging is protected by U.S. Patent 6,507,172.
Highly Integrated Chargers Provide Reliability and Flexibility for Handheld Military DevicesIn the field, it is important that the harsh environment does not adversely affect equipment. Maxim’s small battery chargers incorporate various protection features to increase both the reliability and portability of portable devices.
Protects Li+ Battery and Handheld Devices from Unexpected Power Surges4.7V OVP Output Is Critical for Fluctuating Power Sources in the Field
High Integration in Industry’s Smallest Dual-Input Charger
• CCCV, thermally regulated linear charger• Input power-source/battery-detection circuit• Output for autobooting• Charge-status output
• Programmable fast-charge current (1ARMS, max)• 4.25V to 28V input voltage range with input OVP > 7.5V• Low-dropout voltage (300mV at 500mA)• Compact 3mm x 3mm x 0.8mm, 14-pin TDFN package
Single-/Dual-Input Li+ Chargers Provide OVP, Thermal Regulation, and Charge Timer in a 3mm x 3mm TDFN PackageOVP and Simple Application Circuit Reduce System Cost in Military Applications
3.3V, 10µA
4.1VTO 8V
USBINPUT
OR
ACADAPTER
1.2A MAIN
MAINBATTERY
1
7
CHARGE ENABLE
SYS POWER SET
SYS CURRENT SET
LDO OUTPUTVOLTAGE
SELECT
ANALOG OR PWMDIMMING
(BRIGHTNESS CONTROL)
SYS
MAIN
SYS
SYS900mA CORE
500mA
150mA
300mA
150mA
EN1 TO EN7
SYS
SYS
(SIMPLIFIED DIAGRAM)
SYS
BAT
THM
POK
CHG
OUT1
OUT2
LX3
WLED
CS
GND
DC 150mΩ
40mΩVL
CT (CHARGE TIMER)
USB/AC
100mA/500mA
CEN
PSET
ISET
PV1
PV2
SKIP/PWM
BRT
OUT4
OUT5
OUT6
OUT7
EN
SL1
SL2
IN12
IN34
Smart PowerSelector
+CHARGER
STEP-DOWNDC-DC
STEP-UPDC-DC
CONTROLLOGIC
LDO
MAX8662
Complete battery charger andSmart Power Selector circuitry• Up to 1.5A (adj) charge rate• Thermal regulation• Adjustable charge timer• Allows no-battery/dead-battery operation with external power
2 step-down DC-DC converters• Up to 97% efficiency• 1V to 3.3V (adj) output
Step-up DC-DC converterfor WLEDs or OLEDs• 2 to 7 WLEDs (30V)• Up to 90% efficiency
4 LDOs• 1.7V to 5.5V input range• 1.1V to 3.3V output range
MAX8662
MAX8663(No step-upfor WLEDs)
48-TQFN
6m m x 6 m m
40-TQFN
5m m x 5 m m
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Maxim's Smart Power Selector Circuitry Enables Efficient Power DistributionMaxim’s latest battery monitors efficiently distribute power through Maxim’s proprietary Smart Power Selector circuitry. When external power is connected, Smart Power Selector circuitry allows the system to operate with no battery or a deeply discharged battery. It automatically switches the system load from the battery and makes the best use of limited USB or adapter power, while charging the battery from input power not used by the system. All necessary power switches and current-sense circuitry are included on the chip, thus providing a complete, highly integrated solution for battery monitoring in devices for which energy efficiency is vital.
Single-Chip PMICs Reduce Cost and Size for 1-Cell Li+ Battery-Powered ProductsUp to 95% Efficient DC-DC Converters and Low 1.7V (min) Input-Voltage LDOs Maximize Battery LifeThe highly integrated MAX8662/MAX8663 power-management ICs (PMICs) are cost-effective, small-footprint complete solutions for today’s powered soldier. They are ideal for use in night vision systems, head-mounted displays, GPS devices, and communications. These PMICs optimize system performance, cost, and size with two high-efficiency step-down DC-DC converters, four LDOs, one step-up DC-DC converter for WLEDs/OLEDs, and a lithium-ion (Li+) charger in a single IC.
Complete Power-Supply and Charger Solution
VIN: 3.5V TO 28V
GND
VOUT: 3.3V AT 2A (300kHz)DC-DC
LDO
MAX16974
Always-on DC-DC converteruses only 35µA IQ to save
battery power2.2MHz DC-DC
converter uses tiny external components
5V linear regulatorallows ECU wakeup
+
+
DC-DC1VIN1: 3.7V TO 28V (45V)
VOUT1: 5.5V TO 3.0V AT 1.2A
VIN2: 2.7V TO 5.5VVOUT2: 1.0V TO 3.9V AT 600mA
VIN4: 2.7V TO 5.5VVOUT4: 1.0V TO 4.15V AT 300mA
GND
RESET
DC-DC2
LDO2
LDO1VIN3: 2.7V TO 5.5V
VOUT3: 1.0V TO 4.15V AT 300mA
MAX16922
2.2MHz DC-DCconverters use tiny
external componentsfor reduced cost and space requirements
Reset signal monitorsDC-DC outputs to
simplify powersequencing
Low-voltage convertersreduce system size
and cost
Separate inputs on all channelsfor maximum eciency
and configurability
Integrated high-voltage DC-DC connects directly to mobile vehicle
battery, eliminates need for separate front-end regulator
+
+
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Maxim offers both highly integrated and discrete power-management solutions. We support all forms of power management for line-powered conversion, portable, and mobile applications, as well as demanding military and aerospace environments.
Industry’s Smallest 4-Channel PMIC that Connects Directly to the Mobile BatteryTwo Step-Down DC-DCs and Two LDOs in a 25mm2 Package
High-Voltage, 2.2MHz, 2A Step-Down Converter Meets Tight Power BudgetsUses Only 35µA Quiescent Current at No Load
Rugged Power-Management ICs for Harsh Mil/Aero Environments to +125°C
Spread Spectrum Reduces EMIOUTPUT POWER SPECTRUM vs. FREQUENCY
FREQUENCY (MHz)
POW
ER S
PECT
RUM
(dBm
)
33
-70
-60
-50
-40
-30
-20
-10
0
10
20
-8030 36
RESOLUTION BW = 100kHzVIDEO BW = 100kHzRxCLKIN_ = 33MHzATTENUATION = 50dB
NO SPREAD
4% SPREAD
TxOUT7 7
TxCLKIN
RxIN
SERIALIZER
PARA
LLEL
INPU
T
PARA
LLEL
OU
TPU
T
DESERIALIZER
7 7RxIN
7 7RxIN
RxIN RxCLKOUTPLL
0.1µF
0.1µF
0.1µF
0.1µFPLL
MAX9209 MAX9244
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Part DC-BalancedClock (MHz)
Non-DC-BalancedClock (MHz) Features
MAX9209 8 to 34 10 to 40 PLL requires no external components
MAX9242 16 to 34 20 to 40 Rising strobe edge, input oversampling
MAX9244 16 to 34 20 to 40 Falling strobe edge, input oversampling
MAX9246 6 to 18 8 to 20 Falling strobe edge
Programmable Spread-Spectrum SerDes Chipsets Reduce EMI in Military GPS DevicesMaxim’s serializer/deserializer (SerDes) chipsets feature programmable spread-spectrum modulation, which spreads single-ended data and clock outputs for maximum EMI reduction, especially important in UAS/UCAV designs.
21-Bit, DC-Balanced LVDS Deserializers with Programmable Spread SpectrumSupport Up to 800 x 480 Resolution Displays for Military (GPS-Based) Navigation Systems
Reduce Design Cost and Complexity
• LVDS inputs meet IEC 61000-4-2 Level 4 ESD protection at ±15kV Air-Gap Discharge
• LVDS inputs meet ISO 10605 ESD protection at ±30kV Air-Gap Discharge
• AC-coupling provides short-to-battery protection• Separate output supply allows interface to 1.8V, 2.5V,
3.3V, and 5V logic
Spread Spectrum Reduces EMIOUTPUT POWER SPECTRUM vs. FREQUENCY
FREQUENCY (MHz)
POW
ER S
PECT
RUM
(dBm
)
43 44424140
-30
-20
-10
-60
-50
-40
0
-7039 45
NO SPREADRESOLUTION BW = 30kHzVIDEO BW = 100kHzREFCLK = 42MHz 2% SPREAD
4% SPREAD
DC BALANCE
100Ω
18-BITVIDEO DATA
9-BIT CONTROL
VIDEO DATA
100Ω(DIFFERENTIAL) STP
0.1µF 0.1µFPARALLEL OUTPUTSTO LCD
MAX9247 MAX9248
Enhanced ESDprotection
Reduce cost and EMI byeliminating wires
Minimize EMI withspread data and clock outputs
Preemphasisimproves signal
integrity
DC balance eliminatesproblems caused by low-frequency ground shifts
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Part Clock (MHz) Features
MAX9247 2.5 to 42 Output common-mode filter, selectable preemphasis
MAX9217 3 to 35 Output common-mode filter
Part Clock (MHz) Features
MAX9248 2.5 to 42 Selectable ±2% or ±4% spread spectrum
MAX9250 2.5 to 42 Output enable
MAX9218 3 to 35 Output enable
Serializers Deserializers
Reduce EMI and Cost in Military GPS Navigation Systems27-Bit LVDS SerDes Support Up To 1200 x 480 DisplaysThe MAX9247/MAX9248/MAX9250 27-bit, DC-balanced SerDes chipset features preemphasis and programmable spread-spectrum capability, which spreads both output data and clock for maximum EMI reduction.
HIGH-SPEEDDUAL-PORT
MEMORYADC DAC
LO
RECEIVINGANTENNA
TRANSMITTINGANTENNA
AMP
DIGITALBASEBAND
MODEM
APPSNETWORK
PROCESSOR
SECURITYMANAGEMENT
REAL-TIMECLOCK
SILICON OSCILLATORPLL/VCO
SYNTHESIZER
HIGH-SPEEDADC
POWERMANAGEMENT
THERMALMANAGEMENT
POL POWERDC-DC
HIGH EFFICIENCY
LNBPOWER-DISEqC
CONTROLMONITOR
LOGAMP
RFVVA/VGA
GAINBLOCK
ETHERNETPHY
WIRELESSRF + AFE
USB
RS-232
RF INFROM LNB
MUX
MUX
I
Q
I
Q
HIGH-SPEEDDAC
RFRECEIVER
LINEAR VOLTAGEREGULATORLOW NOISE
RFTRANSMITTER
AMPLIFIER
AMPLIFIER
RF OUTTO LNB
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DRFM Radar SystemsDigital radio frequency memory (DRFM) systems can be used to reconstruct radio signals for many purposes, including to improve signal integrity. Maxim offers numerous products to help you construct a DRFM radar system.
Very Small Aperture Terminal (VSAT)VSAT systems for military and defense applications require wideband, high-dynamic performance, and frequency-agile radio solutions. Maxim’s solutions address the key radio and analog baseband elements for VSAT systems, from broadband tuners and transmitters to high-efficiency power conversion and system management.
Part Description Channels Resolution (bits)
Sample Rate (Msps)
SFDR (dBc)
PDISS (mW)
Supply Voltage (V)
ICC (mA)
MAX109 ADC 1 8 220 50.3 — — 1375
MAX108 ADC 1 8 1500 61.6 — — 1078
MAX19681 DAC 1 23 — — 760 3.3/1.8
MAX2870 Local oscillator Local oscillator — — — 475 3.3 144
High-Performance Data Conversion
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Very Small Aperture Terminal (VSAT) (cont.)Part Function Description
MAX4453 Amplifier Dual high-speed operational amplifier
MAX1040 Control/monitor Multichannel, 10-bit ADC/DAC
78Q2133 Ethernet PHY 10/100BASE XCVR
MAX2612−MAX2616 Gain block 40MHz to 4GHz broadband amplifiers
MAX105 High-speed ADC
Dual 6-bit, 800Msps ADC
MAX19517 Dual 10-bit, 130Msps ADC
MAX5854 High-speed DAC
Dual 10-bit, 165Msps DAC
MAX5898 Dual 16-bit, 500Msps DAC
MAX8531 Linear voltage regulator
Dual low-noise linear regulator, 200mA
MAX8902 Low-noise linear regulator, 500mA
MAX1771 LNB power Boost converter
MAX2015 Log amplifier 3GHz log detector/controller
MAX2870 PLL/VCO synthesizer 23.5MHz to 6000MHz synthesizer/VCO
MAX15301
POL power
Digital POL controller
MAX17017 Quad power management IC
MAX8664 Dual controller
MAX34440
Power management
PMBus™, 6-channel power-supply manager
MAX6391 Dual-voltage microprocessor supervisory circuit with sequenced reset outputs
MAX6715−MAX6717 Dual/triple microprocessor supervisory circuits
DS3234 Real-time clock High-accuracy RTC with SPI
MAX2112 RF receiver
Broadband tuner (BB filter)
MAX2121 Broadband tuner (200MHz BB)
MAX2150 RF transmitter Broadband transmitter
MAX19790, MAX19792, MAX2092 RF VVA/VGA 250MHz to 4GHz analog voltage variable attenuators
MAX3241E RS-232 3x5 transceiver
DS2432
Security management
SHA-1 engine with 1Kb EEPROM
DS3660 Secure supervisor
DS5250 Secure microprocessor
DS1088L Silicon oscillator 1% accuracy oscillator
DS600
Thermal management
±0.5°C accurate analog-output temperature sensor
MAX31722 Digital thermometer
MAX6509 SOT temperature switch
MAX4795 USB 500mA current limit switch
MAX19713 Wireless
High-speed analog front-end
MAX2829 Dual-band 2.4GHz and 5GHz RF transceiver
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Handheld/PortableMobile military radios require highly integrated feature-rich solutions that operate at low power and deliver high performance. Maxim is a leader in analog integration and high performance devices for power management, battery management, RF communications, and signal conversion applications.
DIGITALBASEBAND
MODEMFPGA/ASIC
APPSPROCESSOR
SECURITYMANAGEMENT
REAL-TIMECLOCK
SILICON OSCILLATOR
PLL/VCOSYNTHESIZER
BATTERY MANAGEMENT
CHARGINGFUEL
GAUGING1S/2S
FUELGAUGING
4S/10S
HIGH-SPEEDCONVERTERS
PLL/VCOSYNTHESIZER
PABIAS-CONTROL
GPSTUNER
LNA
RF-RXASIC
SERVICES
RF-TXASIC
SERVICES
THERMALMANAGEMENT
POWER PMICMULTIFUNCTIONHIGH EFFICIENCY
POWERMANAGEMENT
POL POWERDC-DC
HIGH EFFICIENCY
LINEAR VOLTAGEREGULATORLOW NOISE
CONTROLMONITOR
RFPOWER
DETECTOR
RFVVA/VGA
GAINBLOCK
T/RSWITCH
ETHERNETPHY
USB
RS-232RS-485
AUDIO
KEYPADDISPLAY
MU
LTIP
LEX
ER
GPSRF IN
RFIN
PA
RFOUT M
UX
MUX
I
Q
I
Q
RJ-45
SPEAKER
DISPLAYKEYPAD
SHAREDCONNECTOR
Part Function Description
MAX97003
Audio
Audio subsystem
MAX98096 TINI® audio codec
MAX98300 Mono 2W class-D amplifier
MAX98304 Mono 3.2W class-D amplifier
MAX98502 Boosted 2.2W class-D amplifier with automatic level control
MAX17535 Charging
4-cell charger
MAX8971 Charger 1S
MAX1040
Control/monitor
Multichannel, 10-bit ADC/DAC
MAX11607−MAX11611 Multichannel, 10-bit, 2-wire ADCs
MAX1363 4-channel, 12-bit ADC system monitor
MAX5825 Octal 12-bit, I2C DAC
MAX6190A Reference
78Q2133 Ethernet PHY 10/100BASE XCVR
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Handheld/Portable (cont.)Part Function Description
DS2776, DS2778
Fuel gauging 1S/2S
2S, pack-side fuel gauge with protectors
DS2784 1S, pack-side fuel gauge with protector
MAX17048, MAX17049 1S/2S, host-side fuel gauges
MAX17058 1S fuel-gauge
MAX1789 Fuel gauge with protector
DS2788 Fuel gauging 4S/10S
10S, fuel gauge with display driver
MAX17047 4S fuel gauge
MAX2612–MAX2616 Gain block 40MHz to 4GHz broadband amplifiers
MAX2689 GPS LNA GPS low-noise amplifier
MAX19517
High-speed converters
Dual 10-bit, 130Msps ADC
MAX19713, MAX19707 10-bit, 45Msps analog front-ends
MAX5854 Dual 10-bit, 165Msps DAC
MAX11800
Keypad display
Touch-screen controller
MAX44009 Proximity sensor
MAX6947 10-port LED driver
MAX8930 WLED charge pump
MAX6325
Linear voltage regulator
Low-noise, 15mA sink/source current voltage reference
MAX8510 Low-noise linear regulator, 120mA
MAX8902 Low-noise linear regulator, 500mA
MAX14778 Multiplexer Dual analog multiplexer
DS1870 PA bias control
LDMOS PA bias controller
MAX11008 Dual LDMOS bias control with NV memory
MAX2870 PLL/VCO synthesizer 23.5MHz to 6000MHz synthesizer/VCO
MAX15021
POL power
Dual 4A step-down, 5V input
MAX17502 1A synchronous step-down, high-voltage input
MAX8640_ 500mA, synchronous step-down, 5V input
MAX34440
Power management
PMBus, 6-channel power supply manager
MAX6391 Dual microprocessor supervisor with sequenced outputs
MAX6495−MAX6499 72V overvoltage protection switches
MAX6701−MAX6708 Microprocessor supervisors with watchdog timer, power-fail in/out
MAX17019
Power PMIC
Quad output controller
MAX8660 Marvell® PX3xx power management IC
MAX8982X ICERA® E400/E450 power management IC
DS1341, DS1342 Real-time clock
Low current, I2C RTCs
DS1371 I2C, 32-bit binary counter
MAX2014
RF power detector
50MHz to 1GHz log detector/controller
MAX2202 800MHz to 2GHz RMS detector
MAX9930 2MHz to 1600MHz log detector
MAX19790, MAX19792, MAX19794 RF VVA/VGA
250MHz to 4GHz analog voltage variable attenuators
MAX2090, MAX2091, MAX2092 50MHz to 1GHz variable gain amplifers with automatic gain control loop
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Handheld/Portable (cont.)Part Function Description
MAX3232E, MAX3228E RS-232 2x2 transceivers
MAX13430E RS-485 RS-485 transceiver with low-voltage logic interface
DS2432
Security management
SHA-1 engine with 1Kb EEPROM
DS3660 Secure supervisor
DS5250 Secure microprocessor
DS1088L Silicon oscillator 1% accuracy oscillator
MAX31826
Thermal management
1-Wire digital temperature sensor with 1Kb EEPROM
MAX6509 SOT temperature switch
MAX6613 Low-voltage analog temperature sensor
MAX4795 USB
500mA current-limit switch
MAX8586 1.2A current-limit switch
R2OUT
R1OUT
T1IN
T2IN
R2IN
R1IN
T1OUT
T2OUT
RS-232
R2OUT
R1OUT
T1IN
T2IN
R2IN
R1IN
T1OUT
T2OUT
MAX13223E
±70V faultprotection
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25
Fault-Protected Transceivers Safeguard Your SystemEliminate External Components and Save Up to 25% Board Space
RS-232 Transceivers Allow Communication with Military Legacy DevicesMaxim was a pioneer in the interface field with the first RS-232 transceivers in 1987. We continue that legacy today, supporting these early designs while also introducing current state-of-the-art devices. Though most were designed many years ago, our RS-232 transceivers still find application where robustness and ease of use are imperative, such as in military devices. Below are a few of the literally hundreds of different transceivers available, offering everything from AutoShutdown™ for enhanced battery life to advanced data rates up to 1Mbps.
PartSupply Voltage
(V)
Data Rate (kbps) Configuration
ESD Protection (kV, HBM)
Features Benefits Package
MAX1406 12, 12 230 3 Tx, 3 Rx ±15 EMC compliant Tiny package reduces required board space 16-SSOP
MAX232 5 120 2 Tx, 2 Rx — Low-power shutdown mode Shutdown mode reduces power consumption 16-SO
MAX232E 5 120 2 Tx, 2 Rx ±15 ESD protection Designed for harsh environments 16-SO
MAX3212 2.7 to 3.6 235 3 drivers, 5 Rx
— AutoShutdown, 1µA supply current System saves power without
system software changes
28-SO
MAX3218 1.8 to 4.25 120 2 drivers, 2 Rx 20-SO
MAX3221
3 to 5.5
120 1 Tx, 1 Rx 16-SO
MAX3224E 250
2 Tx, 2 Rx
±15
AutoShutdown Plus™, 1µA supply current 20-TSSOP
MAX3232E 250, 1M Down to 10nA, MegaBaud™ mode
Guarantees 1Mbps in MegaBaud mode 16-TSSOP
MAX3235E 3.3/5
250
1µA supply current, internal capacitors, ±8kV (Air-Gap
Discharge) and ±15kV (Contact Discharge) ESD protection
Rugged protection in a tiny package 20-SO
MAX3386E 3 to 5.5 3 Tx, 2 Rx±25kV (Air-Gap Discharge) and ±8kV (Contact Discharge) ESD
protection
Rugged protection in a tiny package 20-TSSOP
MAX13223E 3, 5 2 Tx, 2 Rx ±8 ±70V fault protection Eliminates external circuitry 20-TSSOP
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Part Accuracy(sec/day)
Frequency Output (kHz)
Operating Voltage(V) Interface User Memory
(bytes)Resonator
Type
DS3231M ±0.432
32.768 2.3 to 5.5I2C
— MEMs
DS3231SN
±0.3
—
CrystalDS3232SN 236
DS3234SN SPI 256
Extremely Accurate RTCs
If It's Electronic, It Needs a ClockUnprecedented Timekeeping Accuracy from < ±5ppm Down to < ±2ppmMaxim’s accurate real-time clocks (RTCs) maintain precise time across a broad temperature range (from -40°C to +85°C). A variety of products with the newest technology innovations are available, such as a MEMs-based accurate RTC that provides enhanced reliability and ruggedness as well as less susceptibility to aging, EMI, and vibration. This RTC provides low-current operation and accuracy comparable to crystal-based solutions.
Improvement in Accuracy
TEMPERATURE (°C)
STANDARDCRYSTAL
+40
-40 +85
0
-40
-80
ACC
URA
CY (p
pm)
-120
-160
-200
TEMPERATURE-COMPENSATED RTCs
+3.3V
SCL
SDA
32KHZ VBAT
INT/SQW
RST
CPU
+3.3V
I/O PORT
INTERRUPTS
DS3231M
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Maxim’s accurate timekeeping products are designed to provide improved performance over a standard tuning-fork crystal. By nature, crystals have frequency variations due to changes in ambient temperature. Over the -40°C to +85°C temperature range, the frequency of a crystal can deviate by 100s of parts per million. This results in time inaccuracies of hours per year. In contrast, Maxim’s accurate RTCs provide accuracies as good as 2 minutes per year.
With several devices to choose from, users needing accurate timekeeping are provided a variety of interface options, memory options, and package sizes ranging from the 300 mil, 20-pin SO down to the tiny 150 mil, 8-pin SO (DS3231MZ+). Each device is individually calibrated across its specified temperature range and guaranteed accurate to data sheet specifications. All devices are designed to support battery-backed operation and operate in low-current modes when supplied power through the VBAT terminal. They are also RoHS compatible, and the DS3231M device is fully RoHS compliant.
If It's Electronic, It Needs a Clock (cont.)
Military and aerospace applications such as maintenance scheduling, metering, equipment scheduling and management, security, access control, and vehicle maintenance (including UAVs) are finding accurate timekeeping essential to the operation and up-time of the end equipment. Whether accurate timekeeping is used for manpower scheduling purposes, time-stamping of critical event transactions, or aiding in satellite capture for GPS applications, accurate RTCs provide the most suitable and cost-effective method for implementing accuracy in end equipment.
OUT
CONTROL
S0 S2 GNDS1 EN
RLIM
RLIM
RLIM
RLIM
RLIM
RLIM
RLIM
RLIM
VSS
VDD
MAX14752
05
10204080
05
10204080
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High-Voltage Multiplexer Eliminates External Overvoltage Protection (OVP) Circuitry and Reduces BOM Complexity
• High +72V/±36V supply range eliminates external OVP diodes and optorelays
• Internal protection diodes for OVP• Rail-to-rail operation yields wide dynamic range
• Excellent RON flatness (0.03Ω, typ) ensures highly accurate measurements
• Device enable (EN) defines voltage logic level of channel-select inputs
Analog Switches and MultiplexersMaxim offers the industry's broadest selection of low on-resistance, high-performance analog switches and multiplexers. Products are designed for general-purpose use as well as specific applications including military and aerospace. These analog switches and multiplexers operate from 1.6V to 80V.
Application Specific • Audio • Video • USB • LAN
• Telecom • Automatic Test Equipment (ATE)• Military• Aerospace
Up to 5V Operation
• Standard configurations • Current limited • Overvoltage protection
• Broadband • Beyond-the-Rails™
Up to 80V Operation
• Standard configurations • Fault protected • Low RON
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Multivoltage MonitorsMonitor up to eight voltages with one device with industry-leading specifications for highest accuracy, lowest power, and smallest footprint.
Voltage and Battery DetectorsMaxim offers over 100 voltage-detector and battery-monitor ICs to address the broadest range of applications. We have parts optimized for low power and current, extreme temperatures, high voltages, small spaces, or even the simultaneous management of a dozen system voltages.
Monitored Voltages
Lowest Power (µA)
Smallest Package
Highest Threshold Accuracy (%)
Lowest Monitored Voltage (V)
High-Supply Voltage (V)
Specified to +125°C (°C)
One ≤ 0.5 UCSP™/µDFN ≤ 1
≤ 1.2 > 6
-55 to +125/-40 to +125
Two ≤ 2.5 µDFN ≤ 1
-40 to +125Three ≤ 50 TQFN ≤ 1.5
Four ≤ 50 µMAX/TQFN ≤ 1
Five or more ≤ 35 TQFN ≤ 1
Monitored Voltages Programming Method
Two Resistor/capacitor (R/C) adjustable, factory fixed, pin selectable
Three R/C adjustable, factory fixed, pin selectable
Four R/C adjustable, factory fixed, pin selectable
Five or six R/C adjustable, factory fixed, pin selectable, I2C
Seven or more R/C adjustable, factory fixed, pin selectable, I2C
Broadest Selection of Innovative Microprocessor Supervisory SolutionsMaxim’s wide product offering of supervisory solutions are specified at industrial, automotive, aerospace, and military temperatures. Maxim has over 400 devices available in a variety of package styles, including devices for:• Multivoltage monitors• Battery-backup• Switch debouncers• Voltage and battery detectors
• Power-supply sequencers and voltage trackers• Watchdog timers• Regulators with integrated reset• Microprocessor supervisors
Watchdog TimersMaxim offers the most innovative watchdog timer solutions used to monitor and minimize code execution errors.
Monitored Voltages Programming Method Watchdog Features
Stand-alone Pin selectable Long startup delays, low power
One Capacitor adjustable Long startup delays, low power, windowed watchdog, specified to +125°C
Two Capacitor adjustable Long startup delays, low power, specified to +125°C
Three — Long startup delays, low power
Four Pin selectable Long startup delays, low power, specified to +125°C
Five or more — Long startup delays, low power, specified to +125°C
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Microprocessor Supervisors*Maxim offers a wide range of small, low-power microprocessor supervisors with highly accurate voltage monitoring, specified for industrial, automotive, and military applications.
Monitored Voltages
Lowest Power (µA) Package Highest Threshold
Accuracy (%)
Lowest Monitored
Voltage (V)
High-Supply Voltage (V)
Specified to +125°C (°C)
One ≤ 1 µDFN/UCSP ≤ 1
≤ 1.2 > 6
-55 to +125/-40 to +125
Two ≤ 1.5 µDFN ≤ 1.5
-40 to +125Three ≤ 12 SC70/TQFN ≤ 1.5
Four ≤ 40 TQFN/µMAX ≤ 1
Five or more ≤ 70 TQFN ≤ 1
Regulators with Integrated ResetThese featured regulators with integrated reset are the most innovative solutions in the key areas shown below.
Voltages Configuration Method
1 R/C adjustable, fixed
2 R/C adjustable, fixed
3 R/C adjustable, fixed
4 R/C adjustable, fixed, I2C, pin selectable
6 R/C adjustable, fixed, I2C, pin selectable
8 I2C, JTAG, pin selectable
12 I2C, JTAG
High-Voltage (72V) Linear Regulators for Automotive Applications
MAX6765−MAX6774 4V to 72V, 100mA, integrated supervisor, consumes only 31µA
MAX6791−MAX6796 72V, 300mA, single/dual, reset, watchdog timer, power-fail comparator
MAX6397/MAX6398 100mA, always-on, OVP
Low-Voltage Linear Regulators with Integrated Reset
MAX6469−MAX6484 300mA, TDFN and CSP packages
MAX6329/MAX6349 150mA, SOT23, consumes only 25µA
Precision Shunt Regulators with Integrated Reset
MAX6330/MAX6331 Low-cost, 100µA to 50mA
Broadest Selection of Innovative Microprocessor Supervisory Solutions (cont.)Sequencers and Voltage TrackersMaxim's power-supply sequencing and voltage-tracking ICs fulfill your power-up and power-down requirements. Our products range from simple, small, dual-voltage sequencers/trackers to highly flexible, I2C-programmable hex sequencers with internal ADC.
*Featured discussion on page 31.
VCC
PRECISIONRESET
RESET
VTH
tRP
VCC
RESET
MICROPROCESSORINITIALIZES CORRECTLYMICROPROCESSOR IN UNKNOWN STATE
RESET
POWER SUPPLYPOWER SUPPLY
Power-Up With ResetPower-Up Without Reset
TIME
VO
LTA
GE
TIME
VO
LTA
GE
Industry-Leading Threshold Accuracy Provides Superior Protection Against Stray Voltages
MAXIM’S±1% THRESHOLDACCURACY
COMPETITION’S±2.5% THRESHOLDACCURACY
VO
LTA
GE
(V)
3.30
3.14
2.97
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Featured Discussion: Microprocessor SupervisorsMicroprocessor-Reset ICsMicroprocessors require a reset pulse during power-up to initialize the internal registers and prevent unwanted code execution. Without a reset, the device could attempt to run even when the clock oscillator or VCC has not stabilized, thereby causing unpredictable operation.
The circuit below shows an inexpensive way to add a reset function to a microprocessor that needs an active-low reset signal. Although low cost, the circuit has limitations—namely, inaccurate voltage and timing specifications.
Integrated reset circuits combine an accurate voltage monitor with precise timing circuitry to solve the problems associated with discrete circuits. These ICs should be used when an application requires the system voltage to fall within narrow tolerances before operating normally, or when a delay is needed to allow the clock oscillator to start up.Maxim offers the industry’s widest range of microprocessor-reset circuits. These circuits include multiple reset-output types, precision reset thresholds, threshold hysteresis, and accurate reset timeouts. Maxim's reset ICs also integrate functions such as a manual-reset (MR) input, watchdog timer, and an additional comparator input and output. Devices such as the MAX16072−MAX16074 squeeze these features into an ultra-small, 1mm x 1mm, chip-scale package. These reset ICs are perfect for applications with limited board space.
Discrete implementations are plagued by inaccurate voltage and
timing specifications.
Maxim's reset ICs integrate an accurate voltage monitor and
precise timing circuitry.
FPGA
FPGA
POL1
POL1
POL2
POL2
POL3
POL3
POL4
1.0V
1.2V
1.2V
1.1V
1.1V
3.3V
3.3V
AT 16A
AT 10A
AT 1A
AT 10A
AT 5A
AT 2A
AT 0.5A
48VBACKPLANE
PLUG-IN CARD 1
PLUG-IN CARD 10
5.0V
12.0V
48V → 5VISOLATED
REGULATOR
48V → 12VISOLATED
REGULATOR
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POL Regulators for FPGA Power
Part DescriptionVIN
Range (V)
VOUT Range
(V)
Temperature Range (°C) Outputs Output Current
per Channel (A)Internal Switch
Switching Frequency
MAX5088/MAX5089
2A buck converters with internal high-side switch and low-side
driver (MAX5089 only)4.5 to 23
0.6 to 0.85 x
VIN
-40 to +125 1 2 200kHz to
2.2MHz
MAX15002 Dual-output buck controller with tracking/sequencing 5.5 to 23 -40 to +125 2 15 200kHz to
2.2MHz
MAX15023 Wide-input, dual-output, synchronous buck controller 4.5 to 28 -40 to +85 2 12 200kHz to 1MHz
MAX15026 Wide-input, single-output, synchronous buck controller 4.5 to 28 -40 to +125 1 25 200kHz to 2MHz
MAX15048/MAX15049
Triple-output buck controllers with tracking/sequencing 4.5 to 23 -40 to +85 3 15 200kHz to
1.2MHz
Point-of-Load Regulators Provide Protection for FPGAs in Mil/Aero ApplicationsHigh-performance/high-power FPGAs are often deployed in military and aerospace applications. They typically are built on plug-in cards powered by a 48V backplane. A two-stage distributed power architecture (DPA) is often used in these applications for the individual cards, the first stage being a step-down converter that converts the 48V to an isolated intermediate voltage such as 12V or 5V. This voltage is then further downconverted to the required voltages for the FPGA in the point-of-load (POL) regulators.
Typical Two-Stage Distributed Power Architecture for FPGAs
INPUT VOLTAGE
LOA
D C
URR
ENT
COMPETITION
Maxim’s extendedthermal capabilities
and input voltage
TIME
12
72
INPU
T V
OLT
AG
E (V
)
WITH OVP
WITHOUT OVP
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High-Performance Regulators with High Reliability Over a Wide Operating RangeMaxim’s family of high-performance regulators operates over a very wide input voltage range (up to 72V) and tolerates many voltage transients without any external circuitry. The ICs are fully specified up to +125°C and can dissipate more power than most competitive solutions. They also integrate various features such as a reset output, an extra undedicated comparator (PFI/PFO), a watchdog timer, enable and hold functionality, and a gate driver (GATEP) that protects against reverse-battery conditions by using a pFET.
Overvoltage Protectors Prevent Damage to Downstream Critical CircuitryMaxim’s overvoltage protectors can protect military and aerospace designed circuits from transient voltages up to 72V, overvoltages, or reverse-voltage conditions.These devices use series-pass MOSFETs to instantly disconnect the circuit during a fault condition. After the fault condition is resolved, the MOSFETs turn back on so that the circuit can continue to operate.
Part Output(s) Watchdog Enable Input(s)
Hold Input(s)
Additional Comparator GATEP
MAX6765/MAX6766
100mA—
1 —
MAX6767/MAX6768 1 —
MAX6769/MAX6770 1 RESETIN
MAX6771/MAX6772 2 —
MAX6773/MAX6774 Fixed 1 —
MAX6791/MAX6792 2 x 150mA Adjustable, windowed 2
PFI/PFO MAX6793/MAX6794 2 x 150mA Adjustable 2
MAX6795/MAX6796 300mA Adjustable 1
Part Function MOSFET Reverse Voltage Undervoltage Latch POK Built-In LDO
MAX6397
Switch/limiter
nFET
—
MAX6495 —
MAX6496 —
MAX6497 Switch Latch
MAX6498 Switch Autoretry
MAX6499 Switch/limiter Latch with clear
MAX16013 Switch/limiter pFET —
MAX16014 Switch pFET Latch
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Simplifies Designs and Reduces Cost
• Excellent video quality from 4-channel NTSC/PAL video decoder with 54MHz, 10-bit ADC and 5-line filter• Flexible video output with byte- or frame-interleaving modes at 27MHz/54MHz/108MHz• Multichip cascade configuration with direct connection• Independent auto-equalizer processing for each video channel• Individual video scalers for each video channel
Video Decoders for Low-Cost, Reliable, Advanced UAS/UCAV Vision Systems
Video decoders are critical in determining the level of video quality available for further processing downstream. Until now, designers of cost-sensitive applications have frequently had to settle for 9-bit, 2x oversampling decoders that offer inferior video quality. This performance-cost tradeoff has impeded the transition from analog systems to digital video solutions in some industries and markets. However, Maxim’s codecs provide superb video quality at a competitive price, effectively eliminating the need to sacrifice video quality for cost.
Key Features Benefits
On-chip DDR2 memory controller for frame-interleaved, synchronous, multichannel output
• Eliminates need for FPGA on video input• Reduces system cost and design complexity with glueless, direct connection to Maxim’s
family of H.264 video processors
4-channel NTSC/PAL video decoder subsystem • Integrates video capture and digital conversion into one IC to greatly simplify PCB design and reduce component count and cost
Industry-standard digital component video output (ITU-R BT.656) for digital processing
10-BITAGCDC
RESTORE
I2C AND LOGIC PLL
YPROC
CPROC
Y/C
SEPA
RATI
ON
OU
TPU
TFO
RMA
TTERStandard
analogvideo input
MAX9526
27MHz, 8-/10-bitparallel output
Four-line adaptivecomb filter
54MHz, 10-bitconverter
Integrated anti-aliasing filter (analog and digital)
1.8V operation reducespower consumption
IntegratedPLL
AutodetectsNTSC and PAL
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High-Performance Video Decoder Delivers Excellent Digital Video QualityIdeal for Numerous Remote Military/Aerospace ApplicationsThe MAX9526 is a low-power video decoder that is easy to operate and performs well in higher temperature environments. It provides an ideal vision solution for a variety of military and aerospace applications including robot vision systems for anti-mine and IED missions, remote vision monitoring and surveillance, and UAV vision systems.
Provides Excellent Video Quality
• 54MHz, 10-bit ADC• 4x oversampling (54MHz)• Multiline adaptive comb filter• Internal anti-aliasing filter
Satisfies High Temperature Requirements
• -40°C to +125°C operating temperature range
Consumes Very Little Power for Battery-Powered Applications
• Under 200mW typical power dissipation
Offers Ease of Use
• Only 16 user-programmable registers• Autoselects NTSC or PAL input analog video signal• Auto or manual TV standard selection through I2C interface
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Security ManagersProduct Matrix
DS3600 DS3605 DS3640/DS3641
DS3644/DS3660 DS3645 DS3650/
MAX36051 DS3655 MAX36025
Availability
Package 25-CSBGA 25-CSBGA 25-CSBGA 49-CSBGA 49-CSGBA 16-CSBGA 16-CSBGA 81-CSBGA
Operating Temperature (°C) -40 to +85 -40 to +85 -40 to +85 -55 to +95 -55 to +95 -40 to +85 -40 to +85 -55 to +95
Power Consumption (µA, typ) 5.7 5.75 6.5 ~9 12 3.0/1.5 1.2 9
Low-Voltage µP Interface (V) — — — 1.8, typ (DS3660) — — — —
Secure Memory— Nonimprinting (bytes) 64 — 1K 1K 4K
128(MAX36051)
64 1K
Segmented Memory — — — 2 levels — — — 2 levels
Int RAM Control and Erase
Ext RAM Control and Erase
RTC/RTC Alarm Counter/
alarmCounter/
alarm Counter Counter Counter/alarm
Time Stamp
Watchdog
Battery Control (Switch)
Silicon Oscillator
CPU Supervisor
Oscillator Monitor
Defined Threshold Tamper Inputs 4 4 4 4 4 2 — 4
Logic-Level Tamper Inputs 1 1 3 2 2 — 4 2
Window Comparators — — — 4 4 — — 4
I/O 3 wire I2C I2C/4 wire I2C I2C 4 wire I2C SPI (2 ports), serial flash port
Authentication — — — — — — —Through an
encrypted I2C port
AES Encryption ECB, CTR, CBC Modes — — — — — — — 2 AES engines
Encrypted I2C Interface — — — — — — — Authentication only
Analog/Digital Input Temp/bat Temp/bat Temp/bat Temp/bat Temp/bat Temp/bat Temp/bat Temp/bat
Internal Temperature Sensor
Silicon-Inscribed Serial Number
Pseudo-Random Number Generator (PRNG)
Glitch Filter
Internal Voltage Reference
Evaluation Kits
(DS3644)
(MAX36051)
EXTERNAL SRAM
HOST CPUWITH
INTERNALMEMORY
OPTIONALPOWER-MANAGEMENT
LOGIC
CE
DS3690 TRANSMISSION GATE
INT
D0−DxA0−AxRDWE
VBAT
OE
CEVCC
RST
Px.0Px.1
Px.2
D0−DxA0−AxRDWE
1µF, 10VTYP
IN1+IN3-
USER-DEFINEDTAMPER SENSOR/
VOLTAGE MONITORING
CswCASE SWITCH
470kΩTYP
X2X1
CBAT
BATON
32.768kHz
TAMP
IN2+
USER-DEFINEDRESISTIVE MESH
USER-DEFINEDEXTERNAL
TAMPER CIRCUITRY
VCCO
VCCO
VCC
CEi
VCCO
CAP+CAP-
TOUT
VRAM
CEo
IN4-
VCCIBATTERY VBAT
SswSERVICE SWITCH
RST
DATCLK
CEDS3600
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Security Managers (cont.)
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Complete GPS, Galileo, GLONASS, and Compass Front-EndsUncompromised Navigation Performance with Space-Efficient Designs
PartRef Clock
Frequency (MHz)
IF Output Frequency
(MHz)
IF Output Bit(s) CMOS
Noise Figure
(dB, typ)
Supply Voltage
(V)
Supply Current
(mA)
Frequency (MHz)
Temp Range (°C)
Features
MAX2769B 8 to 44 0 to 10 (programmable) 1 to 3 1.4 2.7 to
3.3 15 1550 to 1610
-40 to +85
1.4dB cascaded noise figure; dual-input LNA supports active and passive antenna; programmable IF and DSP interface
• Highly integrated RF-to-bits receiver increases design flexibility for many different military applications
• Covers all major worldwide satellite systems: GPS, Galileo, GLONASS, and Compass
• AEC-Q100 qualified for robust field reliability under any conditions• Programmable IF frequency (supports zero-IF, low-IF, and complex IF
modes) and 1- to 3-bit ADC configurations for customized designs• Achieves low 1.4dB noise figure for efficient satellite syncing in low-
signal environments• Noise figure falls to 0.8dB when paired with the MAX2659 GPS LNA• Increased clock-output drive for designs where RF and baseband are
situated apart in the system• High bandwidth and IF passband flatness for GLONASS (9.66MHz)• Highly flexible DSP interface supports numerous output data formats
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Analog Solutions for Xilinx® FPGAs
In a variety of devices, such as consumer electronics, industrial, telecom infrastructure equipment systems, and advanced military and aerospace systems, analog and mixed-signal ICs—which interface with the outside world—sit alongside FPGAs—which deliver significant value through programmable system integration. Because complex military and aerospace system designs require integrating several key components to acquire and process data, various FPGA options need to be evaluated. Xilinx provides programmable solutions to solve tough military and aerospace design challenges through its Targeted Design Platforms (TDPs), a comprehensive and growing portfolio of development kits with boards, tools, IP cores, reference designs, and FPGA Mezzanine Card (FMC) support. Use of the TDPs allows designers to begin application development immediately. Maxim enriches FPGA design with analog and digital power regulators and modules. Additionally, Maxim’s signal-chain building blocks and IP security parts perfectly complement Xilinx's FPGAs. Xilinx and Maxim also have you covered for any designs that incorporate video, voice, or data.
Contact Maxim Direct at 1.800.629.4642 or for more information, visit www.maximintegrated.com.© 2012 Maxim Integrated. All rights reserved. The Maxim logo and Maxim Integrated are trademarks of Maxim Integrated Products, Inc. in the United States and other jurisdictions throughout the world. All other company names may be trade names or trademarks of their respective owners.Rev. 0; September 2012
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µMAX, 1-Wire, and TINI are registered trademarks and AutoShutdown, AutoShutdown Plus, Beyond-the-Rails, MegaBaud, Smart Power Selector, and UCSP are trademarks of Maxim Integrated Products, Inc. Cadence is a registered trademark and registered service mark and Virtuoso, Assura, and Spectre are registered trademarks of Cadence Design Systems, Inc. ICERA is a registered trademark and registered service mark of Icera, Inc. IEEE is a registered service mark of the Institute of Electrical and Electronics Engineers, Inc. Marvell is a registered trademark and registered service mark of Marvell International Ltd. MICROWIRE is a registered trademark of National Semiconductor Corporation. PMBus is a trademark of SMIF, Inc. QSPI is a trademark of Motorola, Inc. WiMAX is a registered certification mark and registered service mark of the WiMAX Forum. Wi-Fi is a registered certification mark of the Wi-Fi Alliance Corporation. Xilinx is a registered trademark and registered service mark of Xilinx, Inc.