Preliminary CBC34803 EnerChip™ RTC I2C Real-Time Clock/Calendar with Integrated Backup Power Features • Ultra low power Real Time Clock with Integrated rechargeable EnerChip™ solid state battery, power-fail detect and automatic switchover, providing greater than 6 days of RTC backup • 5mm x 5mm x 1.4mm QFN package is the smallest commercially available RTC having integrated backup power • Temperature-compensated charge control • Integrated EnerChip™ recharged at VDD > 2.5V • SMT assembly - lead-free reflow solder tolerant • Counters for hundredths, seconds, minutes, hours, date, month, year, century, and weekday based on a 32.768 kHz oscillator • Automatic leap year calculation • Alarm capability on all counters • 2 general purpose outputs • 64 bytes of RAM • Advanced crystal calibration to ± 2 ppm • Advanced RC calibration to ± 16 ppm • Automatic calibration of RC oscillator to crystal oscillator • I2C-bus (up to 400kHz) • Eco-friendly, RoHS compliant - tested Applications • Power bridging to provide uninterruptible RTC function during exchange of main batteries. • Consumer appliances that have real-time clocks; provides switchover power from main supply to backup battery. • Ultra Low Power Timers using only 35nA can be implemented with the CBC34803 • Wireless sensors and RFID tags and other powered, low duty cycle applications. • Business and industrial systems such as: network routers, point-of-sale terminals, singleboard computers, test equipment, multi-function printers, industrial controllers, and utility meters. • Time keeping application • Battery powered devices • Metering • High duration timers • Daily alarms • Low standby power applications 5mm x 5mm x 1.4mm 16-pin QFN Package General Description The EnerChip RTC CBC34803-M5C combines a Real-Time Clock (RTC) and calendar optimized for low power applications with an integrated rechargeable solid state backup battery and all power management functions. The EnerChip RTC ensures a seamless transition from main power to backup power in the event of power loss. The integrated power management circuit ensures thousands of charge-discharge cycles from the integrated EnerChip and manages battery charging, discharge cutoff, power switchover, and temperature compensation to maximize the service life of the device. The CBC34803 provides greater than 6 days of backup time in the event main power is interrupted. The integrated EnerChip recharges quickly, has extremely low self-discharge, is non-flammable, and RoHScompliant. The EnerChip is charged automatically anytime VDD is above 2.5V. Data is transferred serially via an I2C-bus. Alarm and timer functions provide the option to generate a wake-up signal on an interrupt pin. VCAP Figure 1: CBC34803 Pin-out Diagram ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 1 of 9 Preliminary CBC34803 EnerChip™ RTC Figure 2: Functional Block Diagram of CBC34803 (AM0803) Real-Time Clock P2 VCAP Figure 3: Internal Schematic of CBC34803 EnerChip RTC ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 2 of 9 Preliminary CBC34803 EnerChip™ RTC CBC34803 Input/Output Descriptions Pin Number Label Description 1 XO Crystal output 2 VCAP External capacitor connection to supply switchover current at cold temp. (optional) 3 nIRQ2 Interrupt 2 / Output 4 NC No connection 5 VSS Ground 6 VCHG 4.1V (typical) charging source - connect to VBAT and/or optional EnerChip(s) 7 VEC Positive terminal of integrated thin film battery - connect to only to VCHG via PCB trace 8 SDA I2C data input / Output 9 NC No connection 10 SCL I2C clock input 11 AF Autocalibration filter 12 FOUT/nIRQ Interrupt 1 / Function output 13 VDD Supply voltage; positive or negative steps in VDD can affect oscillator performance; recommend 100nF decoupling close to the device (see Fig. 30) 14 RESET/ Output signal indicating RTC is operating in backup power mode 15 EN Charge pump enable; activates VCHG 4.1V (typ.) charging source 16 XI Crystal input XI EN 16 15 RESET VDD 14 13 XO 1 12 FOUT/nIRQ VCAP 2 11 AF nIRQ2 3 10 SCL NC 4 9 NC 5 6 7 8 VSS VCHG VEC SDA Package Dimensions (mm) Figure 4: CBC34803 Package (left: top view, looking through package; right: pad dimensions) EnerChip Properties Energy capacity (typical): Recharge time to 80%: Charge/discharge cycles: Operating temperature: Storage temperature: Minimum VDD to charge EnerChip: 5µAh <15 minutes >5000 to 10% depth-of-discharge -10°C to +70°C -40°C to +125°C 2.5V ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 3 of 9 Preliminary CBC34803 EnerChip™ RTC Absolute Maximum Ratings PARAMETER / PIN CONDITION MIN TYPICAL MAX UNITS VDD with respect to GND 25°C GND - 0.3 - 3.6 V ENABLE Input Voltage 25°C GND - 0.3 - VDD+0.3 V VEC 25°C 3.0 - 4.15 V 25°C 3.0 - 4.15 V RESET Output Voltage 25°C GND - 0.3 - 2.7 V VCAP 25°C GND - 0.3 - 3.6 V (1) VCHG (1) XI, XO, SDA, SCL, AF, FOUT/nIRQ, nIRQ2 (1) See Ambiq Micro AM0803 Data Sheet No external connections to these pins are allowed, except parallel EnerChips. Integrated EnerChip Thin Film Battery Operating Characteristics PARAMETER CONDITION MIN TYPICAL MAX UNITS Non-recoverable - 2.5 - % per year Recoverable - 1.5 - % per year Operating Temperature - -10 25 Storage Temperature - -40 - 10% depth-of-discharge 5000 - - cycles 50% depth-of discharge 1000 - - cycles 10% depth-of-discharge 2500 - - cycles 50% depth-of-discharge 500 - - cycles Charge cycle 2 - 11 22 Charge cycle 1000 - 45 70 40nA discharge; 25°C 5 - - Self-Discharge (5 yr. average) Recharge Cycles (to 80% of rated capacity) 25°C 40°C Recharge Time (to 80% of rated capacity; 4.1V charge; 25°C) Capacity (1) First month recoverable self-discharge is 5% average. (2) Storage temperature is for uncharged EnerChip CC device. (1) +70 +125 °C (2) °C minutes µAh Note: All specifications contained within this document are subject to change without notice. ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 4 of 9 Preliminary CBC34803 EnerChip™ RTC Important Reference Documents For complete specifications of the integrated AM0803 Real-Time Clock, see here: http://ambiqmicro.com For complete specifications of the Cymbet 5µAh EnerChip and integrated power management circuit, see here: http://www.cymbet.com/pdfs/DS-72-21.pdf . The EnerChip and power management functions within the CBC34803 are configured as in Mode 1 (VMODE = GND) described in the CBC3105 data sheet. For guidelines regarding crystal selection and other important information pertaining to the AM0803, see here: http://ambiqmicro.com/resource-center/ Functional Description of Integrated AM0803 Real-Time Clock The AM08xx serves as a full function RTC for host processors such as microcontrollers. The AM08xx includes 3 distinct feature groups: 1) baseline timekeeping features with 32.768 kHz oscillator and 2) advanced timekeeping features, and 3) basic power management features. Functions from each feature group may be controlled via memory mapped registers. These registers are accessed using either an I2C serial interface (e.g., in the AM0803) or a SPI serial interface (e.g., in the AM0813). For more information on the AM0803, see here: http://ambiqmicro.com/0800-series . Low Power Operation Minimum power operation will be achieved by turning off the charge pump in the power management circuit by driving ENABLE low once the internal EnerChip has been charged - typically one hour to full charge at room temperature. the RTC has 3 low power modes, allowing the designer to make appropriate tradeoffs between power consumption and timing accuracy. Operating current drawn by th RTC is as follows: <15 nA with RC oscillator <20 nA with RC oscillator and autocalibration <55 nA with crystal oscillator In addition to the RTC current, the integrated power management circuit typically draws 20-25nA from the EnerChip storage device at room temperature. ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 5 of 9 Preliminary CBC34803 EnerChip™ RTC CBC34803 (AM0803) Register Definitions (00 to 0F) ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 6 of 9 Preliminary CBC34803 EnerChip™ RTC POWER SUPPLY CURRENT CHARACTERISTICS OF INTEGRATED CBC910 POWER MANAGEMENT CIRCUIT ONLY Ta = -20ºC to +70ºC CHARACTERISTIC Quiescent Current (CBC910 power management circuit only; VDD > VRESET ; RTC current not included) EnerChip Cutoff Current (IQBATON adds to RTC current when in backup mode) SYMBOL CONDITION ENABLE=GND IQ ENABLE=VDD MIN MAX UNITS VDD=3.3V - 3.5 µA VDD=5.5V - 6.0 µA VDD=3.3V - 35 µA VDD=5.5V - 38 µA IQBATOFF VBAT < VBATCO, VOUT=0 - 0.5 nA IQBATON VBAT > VBATCO, ENABLE=VDD, IOUT=0 - 42 nA INTERFACE LOGIC SIGNAL CHARACTERISTICS VDD = 2.5V to 5.5V, Ta = -20ºC to +70ºC CHARACTERISTIC SYMBOL CONDITION MIN MAX UNITS VIH - VDD - 0.5 - Volts High Level Input Voltage Low Level Input Voltage VIL High Level Output Voltage VOH VDD>VTH (see Figures 4 and 5) IL=10µA Low Level Output Voltage VOL Logic Input Leakage Current IIN (1) - - 0.5 Volts VDD 0.04V (1) - Volts IL = -100µA - 0.3 Volts 0<VIN<VDD -1.0 +1.0 nA RESET tracks VDD; RESET = VDD - (IOUT x ROUT). RESET SIGNAL AC/DC CHARACTERISTICS VDD = 2.5V to 5.5V, Ta = -20ºC to +70ºC CHARACTERISTIC SYMBOL CONDITION MIN MAX UNITS VDD Rising to RESET Rising tRESETH VDD rising from 2.8V TO 3.1V in <10µs 60 200 ms VDD Falling to RESET Falling tRESETL VDD falling from 3.1V to 2.8V in <100ns 0.5 2 µs TRIP Voltage VDD Rising VRESET VMODE=GND 2.85 3.15 V VHYST VMODE=GND 45 75 mV RESET Hysteresis Voltage (VDD to RESET) ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 7 of 9 Preliminary CBC34803 EnerChip™ RTC CHARGE PUMP CHARACTERISTICS (PERTAINS TO INTEGRATED CBC910 POWER MANAGEMENT CIRCUIT) (NOTE: THIS TABLE PROVIDES IMPORTANT INFORMATION WHEN CONNECTING ADDITIONAL ENERCHIPS TO VCHG.) VDD = 2.5V to 5.5V, Ta = -20ºC to +70ºC CHARACTERISTIC SYMBOL ENABLE=VDD to Charge Pump Active tCPON ENABLE Falling to Charge Pump Inactive tCPOFF CONDITION MIN MAX UNITS 60 80 µs 0 1 µs - 120 KHz (1) 150 300 Ω ENABLE to 3rd charge pump pulse, VDD=3.3V - Charge Pump Frequency fCP Charge Pump Resistance RCP Delta VBAT, for IBAT charging current of 1µA to 100µA CFLY=0.1µF, CBAT=1.0µF VCHG Output Voltage VCP CFLY=0.1µF, CBAT=1.0µF, IOUT=1µA, Temp=+25ºC 4.075 4.125 V VCHG Temp. Coefficient TCCP IOUT=1µA, Temp=+25ºC -2.0 -2.4 mV/ºC Charge Pump Current Drive ICP IBAT=1mA CFLY=0.1µF, CBAT=1.0µF 1.0 - mA ENABLE=VDD 2.5 - V Charge Pump on Voltage (1) VENABLE fCP = 1/tCPPER ADDITIONAL CHARACTERISTICS Ta = -20ºC to +70ºC CHARACTERISTIC VBAT Cutoff Threshold SYMBOL VBATCO Cutoff Temp. Coefficient TCCO VBAT Cutoff Delay Time tCOOFF CONDITION LIMITS UNITS MIN MAX 2.75 3.25 V +1 +2 mV/ºC 40 - ms IOUT=1µA VBAT from 40mV above to 20mV below VBATCO IOUT=1µA Note: All specifications contained within this document are subject to change without notice ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 8 of 9 Preliminary CBC34803 EnerChip™ RTC Ordering Information EnerChip RTC Part Number Description Notes CBC34803-M5C EnerChip RTC in 5mm x 5mm x 1.4mm 16-QFN Land Grid Array Shipped in Tube CBC34803-M5C-TR1 CBC34803-M5C-TR5 EnerChip RTC in 5mm x 5mm x 1.4mm 16-QFN Land Grid Array Tape-and-Reel - 1000 pcs (TR1) or 5000 pcs (TR5) per reel CBC-EVAL-12 EnerChip RTC Evaluation Kit USB based Eval Kit with CBC34803 tab board U.S. Patent No. 8,144,508. Additional U.S. and Foreign Patents Pending Disclaimer of Warranties; As Is The information provided in this data sheet is provided “As Is” and Cymbet Corporation disclaims all representations or warranties of any kind, express or implied, relating to this data sheet and the Cymbet EnerChip product described herein, including without limitation, the implied warranties of merchantability, fitness for a particular purpose, non-infringement, title, or any warranties arising out of course of dealing, course of performance, or usage of trade. Cymbet EnerChip products are not authorized for use in life critical applications. Users shall confirm suitability of the Cymbet EnerChip product in any products or applications in which the Cymbet EnerChip product is adopted for use and are solely responsible for all legal, regulatory, and safety-related requirements concerning their products and applications and any use of the Cymbet EnerChip product described herein in any such product or applications. Cymbet, the Cymbet Logo, and EnerChip are Cymbet Corporation Trademarks ©2013 Cymbet Corporation • Tel: +1-763-633-1780 • www.cymbet.com DS-72-34 V.09 Page 9 of 9