1st Edition ACCURATE MEMS REAL-TIME CLOCKS Product Guide www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Table of Contents 3 Introduction 4 Accurate MEMS RTCs at a Glance 6 Benefits of MEMS Technology in RTC Applications 7 Automotive 8 Video Security and Surveillance 9 Industrial and Medical 10 Power Meters 11 2 Evaluate MEMS RTC Technology with DS323x Reference and Development Kits www.maximintegrated.com www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Introduction Advancing Timekeeping Accuracy In 1999, Maxim Integrated introduced the DS32kHz, a 32.768kHz temperature-compensated crystal oscillator (TCXO), which was the industry's first accurate timekeeping product for real-time clock (RTC) applications. The product boasted an accuracy of 7.5ppm across the entire -40C to +85C industrial temperature range. By 2005, with the combination of innovative packaging technology and improved temperature sensor capability, we introduced what would be considered the industry's most accurate RTC, the DS3231S, an extremely accurate IC-integrated RTC/TCXO/crystal. The DS3231S featured a highly reliable and innovative package that incorporated a 32kHz tuning fork crystal into a standard 16-pin, 300-mil SO. This highly integrated device further enhanced timekeeping accuracy by providing a frequency accuracy of less than 3.5ppm over the -40C to +85C temperature range. This accuracy is equivalent to less than 0.3 seconds/day. In 2009, Maxim Integrated embarked on a goal to create a quantum leap in technology advancement by developing an RTC that would exceed the performance of the DS3231S, but provide it in a smaller package with lower cost, higher accuracy standards, and substantially more ruggedness. The culmination of this work is a product family based on microelectromechanical systems (MEMS) technology. The DS3231M 5ppm, IC RTC was first introduced in 2010 with all the capability outlined in the company's development goals. The device has a timekeeping accuracy of 5ppm over all conditions including temperature, voltage, and aging. The design is extremely rugged, has achieved automotive AEC-Q100 certification, and can sustain extreme levels of mechanical shock and variable frequency vibration. Because of the extremely small size of the MEMS resonator, the device is packaged in a small 8-pin, 150-mil SO--something unattainable with tuning fork crystals. Industry's First Accurate MEMS RTC DS3231M Industry's First 32.768kHz TCXO DS32kHz Industry's Most Accurate RTC DS3231S 16-Pin SO 8-Pin SO 16-Pin SO Integrated Crystal WBGA Package 1999 2005 2010 3 www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Accurate MEMS RTCs at a Glance Industry's Single Most Integrated Solutions for Accurate Timekeeping Maxim Integrated embarked on a goal to create a quantum leap in technology advancement by developing an RTC that would exceed performance in a smaller package, with lower cost, higher accuracy standards, and be substantially more rugged for use in power meters, video surveillance, and automotive, industrial, and medical applications. The culmination of this work is a product family based on the MEMS technology: the DS3231M and DS3232M. DS3231M The DS3231M is the first temperature-compensated RTC with an internal MEMS resonator to reduce crystal mechanical failure. Designed to be footprint and functionally compatible to the popular DS3231S, the DS3231M replicates the 16-pin, 300-mil SO for users looking for a less-expensive solution but want the same functionally, firmware, and board layout found with the DS3231S. The DS3231M integrates several important system features--resonator, RTC, TXCO, digital temperature sensor, and automatic power switching--to support battery-backed applications in one device. DS3232M The DS3232M is an RTC that adds memory in the smallest package with 236 bytes of battery-backed user memory. The DS3232M is a MEMS-equivalent to the popular DS3232S crystal-based RTC. Major space-saving gains are made with this miniature MEMS resonator in the 8-pin, 150-mil package versus the 20-pin, 300-mil SO of the DS3232S. From Crystals to MEMS MEMS DIE CRYSTAL BLANK CYLINDRICAL CRYSTAL MEMS technology, because of its size, enables significant space savings when compared to cylindrical crystals. A single MEMS resonator occupies 47 times less area and 182 times less volume than a cylindrical crystal. This size differential allows for smaller packaging options, provides significantly enhanced ruggedness in high vibration and shock environments, and demonstrates little to no aging (< 1ppm total) over the life of the device. Simpler Assembly Smaller Packaging Lower Cost * Standard IC plastic packaging * 8-pin (150 mil) vs. 16-pin (300 mil) * No special/custom crystals required * Wire-bonding vs. welding * Chip-scale packaging (CSP) possible * Lower cost MEMS resonator * Ultrasonic cleaning * Facilitates large-scale assembly operations 4 * Lower cost packaging www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide DS3231M Block Diagram Automatic power switching VBAT VCC RST 32KHZ DIVIDER POWER SUPPLY CONTROL INTERRUPT OR 1Hz SELECT MEMS RESONATOR GND DIGITAL ADJUSTMENT 3C TEMP SENSOR User-accessible temperature sensor 5ppm, 1Hz accurate pulse output FACTORY TRIM SDA SCL I2C INTERFACE CONTROL AND STATUS REGISTERS INT/SQW Each device individually calibrated, no blanket trims CLOCK/CALENDAR WITH ALARM Benefits * Precise timekeeping accuracy (5ppm) without user calibration * Low power consumption (< 3.5A) supports battery-powered applications * Completely self-contained power-switching circuitry saves board space * Fully contained digital temperature sensor saves additional system component cost MEMS Real-Time Clocks Part Number Package User Memory (Bytes) Temp Range (C) AEC-Q100 DS3231M+ 16-SO (300 mils) -- -40 to +85 -- DS3231MZ+ 8-SO (150 mils) -- -40 to +85 -- DS3231MZ/V+ 8-SO (150 mils) -- -40 to +85 DS3232MZ+ 8-SO (150 mils) 236 -40 to +85 -- DS3232MZ/V+ 8-SO (150 mils) 236 -40 to +85 +Denotes a lead(Pb)-free/RoHS-compliant package. /V denotes an AEC-Q100-qualified part. 5 www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Benefits of MEMS Technology in RTC Applications Environmental and Manufacturing Ruggedness Maxim Integrated's MEMS-based RTC products have proven, demonstrable performance advantages based on environmental criteria and observation. In reflow operations that replicate customer attachment, MEMS devices demonstrate frequency shifts of less than 1ppm (Figures 1a and 1b). Crystal-based products that face the same regimen of reflow temperature exposure demonstrate shifts as high as 5ppm. One of the most important criteria for establishing how well a device operates is its frequency performance prior to attachment to a motherboard compared to its performance after this attachment process. The attachment process can have temperature excursions as high as +260C for several seconds and be above +200C for several 10s of seconds. Dependable frequency performance over the life of the device is the most important criteria for choosing accurate timekeeping products. Maxim Integrated MEMS RTCs guarantee 5ppm frequency accuracy and stability regardless of voltage, time (aging), or temperature. Additionally, MEMS-based RTCs have demonstrable shock and vibration performance and have passed AEC-Q100 qualification, making them one of the most rugged, dependable, and accurate solutions in the industry. Benefits * Higher manufacturing temperature processes (+260C reflows, < 1ppm frequency shifts, fully RoHS) * Significantly higher shock and vibration capability (> 50g) * Wide operational temperature environments (-40C to +85C) 1Hz FREQUENCY ERROR TESTED WITH MULTIPLE DS3231M DEVICES Actual performance Actual performance 10 8 6 4 2 DS3231M specification limits 0 -2 -4 -6 -8 -10 8 6 4 2 DS3231M specification limits 0 -2 -4 -6 -8 -10 -40 -20 0 20 40 60 TEMPERATURE (C) Figure 1a. DS3231M Pre-reflow 6 1Hz FREQUENCY ACCURACY (ppm) 1Hz FREQUENCY ACCURACY (ppm) 10 80 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 TEMPERATURE (C) Figure 1b. DS3231M Post-reflow www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Automotive Automotive Embraces Ruggedness of MEMS Accurate RTC Products Automotive environments are demanding and require component technologies that can withstand harsh environments. Maxim Integrated's MEMS RTC products are tough enough to withstand even the most rugged needs. The MEMS resonator includes wider operating margins for temperature, greater shock and vibration capability than crystals, more precise frequency accuracy and stability, and less aging over the lifetime of the product. BODY CONTROL MODULE GPS AEC-Q100 CERTIFIED SATELLITE RADIO INFOTAINMENT 8-Pin SO Reliability Automotive Certified * Crystal-less design for tough or harsh environments * DS3231MZ/V+ and DS3232MZ/V+ AEC-Q100 certified Size and Ruggedness High Operating Temperature Ranges * Extremely durable, small 8-pin SO packages can withstand mechanical shock and vibrations * -40C to +85C (DS3231MZ/V+ and DS3232MZ/V+) ** Up to 2900g: 5 shocks x 6 axes, JESD22-B104C Condition-H ** Variable frequency of 20g: 20/2000Hz, JESD22-B103B Condition-1 SO-8/MAX High Accuracy * < 5ppm (under all conditions) 7 www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Video Security and Surveillance Security and Surveillance Systems Benefit from Accurate Timestamping and Small Size of RTC Products Accurate timestamping of event data is an important aspect of video security and surveillance systems. MEMS-based RTCs further enhance this by providing timekeeping accuracy far exceeding the most robust crystal designs. Besides less aging, Maxim Integrated's MEMS-accurate RTC products support accuracy and stability standards of much less than 5ppm lifetime over voltage, temperature, and time. This translates to less than 0.432 seconds/day, much better than 3 minutes/year. A smaller product package size (8-pin SO) provides users with small footprint solutions to accommodate space-constrained designs. Power consumption of < 3.5A make the devices suitable for battery-backed applications. Benefits * Extreme accuracy: < 0.432 seconds/day * 8-pin SO supports space-constrained designs * Suitable for battery-backed applications < 3.5A * Automatic power switching between supplies WED SEP-12-2012 16:10:30 Simulated Image INSTANTANEOUS vs. LONG-TERM ACCURACY OVER LONG PERIODS OF OBSERVATION (REAL-LIFE RESULTS) 1Hz FREQUENCY ERROR (MEASURED EVERY SECOND) VCC = 3.3V TA = +25C 8 FREQUENCY ERROR (ppm) 1Hz FREQUENCY ERROR 5 6 Instanteanous accuracy bounded by 5ppm for all conditions 4 2 0 -2 -4 -6 3 2 1 0 -1 Timing accuracy converges for long periods of observation -2 -3 -4 -8 -5 -10 0 5 10 15 20 TIME (MINUTES) INSTANTANEOUS 8 Long-term accuracy approaches tight limits (error < 1ppm) VCC = 3.3V TA = +25C 4 FREQUENCY ERROR (ppm) 10 25 30 0 5 10 15 20 TIME (MINUTES) AVERAGED 25 30 www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Industrial and Medical MEMS RTCs Meet Critical Factors for Industrial and Medical Applications in Ruggedness, Size, and Temperature Industrial and medical markets have expanded their acceptance of MEMSaccurate RTCs based on the newly introduced 8-pin, 150-mil SO package, the inherent ruggedness of the MEMS design, and the status and success of the standard device's AEC-Q100 automotive qualification. Long-term accuracy (< 5ppm) of the MEMS RTC contributes to its acceptance in these applications, where demand for highly reliable and accurate timekeeping/time-stamping of event data is extremely critical. Temperature performance is extremely important for industrial applications. The standard device provides a wide (-40C to +85C) operating temperature range by keeping accurate time across this band of temperatures. Low operating currents (< 3.5A) and the 2.3V to 5.5V wide-operating voltage range aid critical portable medical applications that are battery powered. Heavy machinery, blood glucose meters, and environmental system controls benefit from the high accuracy, low power consumption, device ruggedness, and small package size. Blood Glucose Monitor Applications * Patient Monitoring * Heavy Machinery * Portable Medical Devices * Environmental Systems BATTERY-SUPPLY CURRENT vs. BATTERY-SUPPLY VOLTAGE FREQUENCY ERROR vs. TEMPERATURE 4.0 10 VCC = 0V, EN32KHZ = 1, BBSQW = 0 TA = +85C Battery-backed mode critical for portable applications 3.0 TA = +25C 2.5 2.0 1.5 FREQUENCY ERROR (ppm) SUPPLY CURRENT (A) 3.5 8 VCC = 3.3V High accuracy across wide temperature ranges 6 4 2 0 LIMITS -2 -4 -6 -8 TA = -40C 1.0 -10 2 3 4 5 SUPPLY VOLTAGE (V) 6 -50 0 50 TEMPERATURE (C) 100 9 Accurate MEMS Real-Time Clocks Product Guide www.maximintegrated.com Power Meters MEMS RTCs Deliver Pinpoint Precision for Metering Maxim Integrated is a premier supplier of electronic component technology designed for smart grid and metering applications. Accurate timekeeping is an essential part of smart power meter design. Applications such as multirate billing drive the need to use accurate timekeeping products like the DS3231M+ and DS3231MZ+. Temperature variations cause frequency drift in crystal-based RTCs. Frequency drift causes timekeeping errors sometimes approaching 30 minutes/year in standard RTCs. This attribute negatively affects billing accuracy and resolution. Additionally, high-humidity environments adversely affect timekeeping accuracy when over-molded crystals are not used. Maxim Integrated's MEMS-based RTCs eliminate these environmental concerns and provide timekeeping accuracy over the entire industrial -40C to +85C temperature range and operate in high-humidity environments without accuracy issues. Newport Smart Meter Reference Platform The Newport Smart Meter reference platform is a smart meter reference design featuring all its premier technologies. Explore the capability of this technology and accelerate your time to market with proven solutions. This includes products in energy measurement (metrology), robust G3-PLCTM communications, and integrated security. Pluggable NAN and HAN communication modules, form-factor design, and complete system software make the Newport Smart Meter reference platform the ultimate development tool. Power and Timing In addition to metrology, communication, and security, the Newport Smart Meter reference platform offers enhanced timing accuracy with the DS3231M MEMS-based RTC. Power for both the metrology and communications boards is regulated by the MAX17498 flyback controller. Metrology and Security The 71M6541 sits at the heart of the system and measures electricity to 0.1% accuracy across a dynamic range of 2000:1 in all four quadrants. An ARM(R) core hosts system software to ensure compatibility with existing development software, while the MAXQ1050 provides multilayered secure authentication to thwart the most determined security threats. Communications The MAX2991 and MAX2992 communicate to and from points in the grid through the power line. They support speeds up to 300kbps, following the G3-PLC specification. Adaptive tone mapping, a robust mode, and programmable tone matching make communications quick and reliable in high-noise scenarios, and compatible with older PLC solutions. An isolated RS-485 communications interface (MAX13256 and MAX13412E) is also provided for any serial communications needs. www.maximintegrated.com/newport 10 www.maximintegrated.com Accurate MEMS Real-Time Clocks Product Guide Evaluate MEMS RTC Technology with DS323x Reference and Development Kits DS3900H2 I/O MODULE VBOARD VCC GND 32kHz VBAT EV kit includes: * Demonstration board * USB I/O module (DS3900H2) * CD containing the application program and instructions PULLUP RESISTOR JUMPERS J6-J8 RST PUSHBUTTON AND LED TEST POINTS The DS323x evaluation kits (EV kits) are fully assembled and tested circuit boards with an accompanying application program that demonstrate the operation of the DS3231M and DS3232M RTCs. Maxim Integrated's accurate MEMS RTCs constantly monitor operating temperature and periodically adjust the internal oscillator frequency to maintain highly accurate timing information. The EV kits allow devices to be operated in all possible power-supply configurations. The application program provides easy access to device register settings, while observing various device functions for timekeeping. The EV kits also allow users to connect their I2C master to the sample component for operational verification and/or code development. The EV kits are Windows(R)-compatible (Windows XP(R) or later version, requires USB port and USB cable). MEMS Real-Time Clock Evaluation Kits Part Number Description DS3231MEVKIT# 16-Pin Package EV Kit for the DS3231M+ DS3231MZEVKIT# 8-Pin Package EV Kit for the DS3231MZ+ DS3232MEVKIT# 8-Pin Package EV Kit for the DS3232MZ+ +Denotes a lead(Pb)-free/RoHS-compliant package. #Denotes RoHS-compliant. 11 Accurate MEMS Real-Time Clocks Product Guide ARM is a registered trademark and registered service mark of ARM Limited G3-PLC is a trademark of Maxim Integrated Products, Inc. Windows and Windows XP are registered trademarks and registered service marks of Microsoft Corp. Contact Maxim Direct at 1.888.629.4642 or for more information, visit www.maximintegrated.com. (c) 2012 Maxim Integrated Products, Inc. All rights reserved. Maxim Integrated and the Maxim Integrated logo 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. 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