SC900841JVKR2 Freescale Semiconductor, SC900841JVKR2 Datasheet

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... V Rail Freescale Chip set Figure 1. 900841 Simplified Application Diagram * This document contains certain information on a new product. Specifications and information herein are subject to change without notice. © Freescale Semiconductor, Inc., 2011. All rights reserved. Document Number: SC900841 900841 POWER MANAGEMENT ...

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... Symbol Value - -0.3 to +20 - -0.3 to +28 - -0.3 to +4.4 - -0.3 to +3.6 ±2000 V ESDHBM ±450 V ESDCDM T - -30 to +125 J T -65 to +150 ST T 260 PPRT defines the maximum power consumption Analog Integrated Circuit Device Data Freescale Semiconductor Unit ° C ° C ° C ° C ...

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... V21 = 2.1 V V15 = 1.5 V VAON = 1.2 V VCCPAOAC = 1.05 V VPMIC = 1.8 V All VR outputs are set in PFM or APS mode driving purely capacitive loads. Analog Integrated Circuit Device Data Freescale Semiconductor Description ELECTRICAL CHARACTERISTICS MAXIMUM RATINGS Maximum Power Logic Consumption USBDET = ...

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... V CCP CCP 0.7 CCPA CCPAOAC OAC 0.7 PMIC PMIC PMIC PMIC 1.74 1.8 3 SPIVCC V +0.3 SPIVCC - 0 - 0.3* V SPIVCC - SPIVCC SPIVCC -0.1 - 1 1.0 2 500 - SPIVCC SPIVCC 0 Analog Integrated Circuit Device Data Freescale Semiconductor Unit µA µ ...

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... V < V < 1.5 A < I < 3 0.6 V < V < < 1 0.3 V < V < 0 Output Voltage Overshoot Maximum overshoot voltage above VID setting voltage. Maximum overshoot time is 10-30 s, output voltage = 0 Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol - - - - - - - - - V COINCELL - I ...

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... V 2.8 3.6 4.7 V 0. -5 0.2 0.2 - 1 ± 0.5 A 3.0 3.6 4.4 V 2.8 3 -5 -15 - +15 - µA 3.0 3.6 4.4 V 2.8 3 -5.0 - 5.0 % Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Extended Input Voltage Range Typical Output Voltage Range Output Accuracy Output Voltage Ripple Continuous Output Load Current V = 4.2 V YMXPA V = 5.0 V YMXPA Under-voltage Protection Threshold Under-voltage Protection Threshold Hysteresis Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol LIM21 - Q21 V ...

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... Min Typ Max Unit - 0.1 - µ 5.0 µA µA - Ω 125 - µA 3.0 3.6 4.4 V 2.8 3 -4 0.1 - µ 5.0 µA - µA Ω - 100 - - 100 - µA Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Low Power Mode Current Limit Transient Load Change Power Supply Rejection Ratio (PSRR) (20 to 100 kHz 1.8 V) Effective Quiescent Current Consumption Active Mode Low Power Mode Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol V PWR V PWR V BKLT ...

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... CC180 CC180 I QCC180 PNL18 - V PNL18UV V PNL18UVH Min Typ Max Unit 1.71 1. -2 150 3 225 - µ 1.995 2.1 2.205 -5 390 7 585 - 350 µ 1.995 2.1 2.205 -5 Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Continuous Output Load Current Active Mode Low Power Mode Current Limit Transient Load Change Power Supply Rejection Ratio (PSRR) (20 to 100 kHz 2 3 PWR Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol I PNL18 I LIMPNL18 ΔI PNL18 = 157.5 mA, PSRR ...

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... NOISEYMXYFI I QYMXYFI Min Typ Max - - 1.425 1.5 1.575 15 V 3.168 3.3 3.432 33 3.0 3.6 4.4 PWR - 1 2 -5.0 - 5 150 - - 1.2 - 225 - - - 130 YMXYFI YMXYFI - - Analog Integrated Circuit Device Data Freescale Semiconductor Unit µV RMS µ µV RMS µV RMS µA ...

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... Output Voltage Setting Output Voltage Accuracy Under-voltage Detection Threshold (With respect to the output voltage) Under-voltage Detection Threshold Hysteresis Continuous Output Load Current Active Mode Low Power Mode Current Limit Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol PWR V ...

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... AONUV V AONUVH I AON I LIMAON ΔI AON = 187.5 mA, V PSRR AON 15 AON I QAON Min Typ Max Unit - - µ 1.425 1.5 1.680 -2 µ 1.425 1.5 1.680 -5 250 - - 5 - 375 - 100 µ Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... VIMG25 ELECTRICAL CHARACTERISTICS Input Voltage Range Supplied by V DC/DC 33 Supplied by V PWR Output Voltage Setting Output Voltage Accuracy Under-voltage Detection Threshold (With respect to the output voltage) Under-voltage Detection Threshold Hysteresis Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol MMUV V ...

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... IMG28 I LIMIMG28 ΔI IMG28 = 169 mA, V PSRR IMG28 33 IMG28 I QIMG28 Min Typ Max Unit 1.6 - 120 - µ 3.168 3.3 3.432 3.0 3.6 4.4 (Selectable, see Table 58) V -5 225 - - 4.5 - 337 100 µ Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Power Supply Rejection Ratio (PSRR) (20 to 100 kHz 3.3 V) Effective Quiescent Current Consumption Active Mode Low Power Mode Notes 5. PVINVIB pin has to always be connected to VPWR node, even if the vibrator is not used. Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol V PWR V VIB - ...

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... RAWCHG V RAWCHGDET V RAWCHGDETHY S V RAWCHOVP V RAWCHOVP HYS Min Typ Max Unit 3.168 3.3 3.432 3 100 - - 4 -3.0 - 3.0 % -2 -3.0 - 3.0 % -2 5.0 % μ 1.0 μ 0.3 0 6.0 V 4.75 5. 100 - mV 5.50 5.75 6. Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... During Charging (0°C) During Discharging (-10°C) NTC Low Temperature Hysteresis NTC High Temperature Threshold (As a ratio of V During Charging (45°C) During Discharging (60°C) NTC High Temperature Hysteresis Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol V PWR V PWR ...

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... Min Typ Max Unit - - 1.2 mA μ 1 ±3 LSB ±1 LSB - - 10 LSB - - 11 LSB ±2.0 LSB - - 5.0 kΩ kΩ 0. -2 mΩ 2.0 - 100 k μ 31/32 NTC - 20 - mΩ +/-1.0 - +/-3000 mA μ μC - 366.2 - Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Input Low Voltage Input High Voltage Output Low Voltage ( CC_MIN OL Output High Voltage ( CC_MIN OH Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol V GPIOVCC V GPOSWVCC V GPOVCC Look at the Si8407DB PFET as an example for maximum drive 4.0 mA -4.0 mA) ...

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... CC t SSCC t CCOFF - SSNN t NNOFF - f SW Min Typ Max Unit Refer to Figure 5 for more details 5 100 - 400 ns μs 1 500 1 32.768 - KHz - - mV/µs - 1.0 - MHz - - 1 mV/µs - 1.0 - MHz Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... VOTG ELECTRICAL CHARACTERISTICS Transient Load Speed of Change Soft Start Time No Load Full Load Turn Off Time Switching Frequency VBKLT ELECTRICAL CHARACTERISTICS Soft Start Time Switching Frequency Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol I /t DDQ t SSDDQ t DDQOFF ...

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... SSYMXGPS t YMXYFIGPSO FF Min Typ Max Unit - - 0.001 A/µ µ 5 0.01 A/µ µ 5 A/µ µ 5 0.1 A/µ 140 µ 5 0.01 A/µ 700 µ 5 0.1 A/µ 200 µ 5 0.01 A/µs µ 5 0.01 A/µs µ 5.0 ms Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Turn Off Time (OFF to output voltage ramp down VSDIO ELECTRICAL CHARACTERISTICS Transient Load Speed of Change Soft Start Time (Enable to output voltage ramp up from 0 to 1.8 V) Turn Off Time (OFF to output voltage ramp down Analog Integrated Circuit Device Data Freescale Semiconductor = 3.6 V and 25 °C. PWR Symbol I /t ...

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... Conversion Time Per Channel Turn on/off Time 900841 26 = 3.6 V and 25 °C. PWR Symbol - f PWM - - - - f PWM - - FET OFF) t OVPCHG OVP - - - Min Typ Max Unit - - 50 µs 128 - 8192 Hz - 8.0 Bit - 2 -0 256 - Hz - 3.0 Bit - 2.0 5.0 µ 1 μ μs 31 Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Voice CODEC (>85 dB SNR) • 24 bit Audio DAC (100 dB SNR, <0.1%THD) • Microphone Support Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DESCRIPTION GENERAL DESCRIPTION Optimum partitioning, high feature integration, and state of the art technology, enable Freescale to support Ultra-mobile platforms that are cost effective, by reducing component count and board area ...

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... Various control and status reporting I/Os • Interrupt and Reset controller. All interrupt signals can be masked. • Overall solution size target of < 900 mm^2 (including clearance and routing) • Operating temperature of -40°C to +85°C Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Audio Bus BCL2 Interface FS2 RX2 TX2 CREFA REFA Audio REFB CREFB References REFD CREFD CXTALRTC1 Analog Integrated Circuit Device Data Freescale Semiconductor Charger / USB Input VPWR MCHGBYP MREVPCHG MOVPCHG CINBKLT VPWR MSWCHG RINSNSCHG LBKLT CINCHG DBKLT CRAWCHG MCHG LCHG COBKLT ...

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... GT CHG RAW LSCHG XTAL1 GPIO7 CHG GT HSCHG PGND ADIN17 ADIN10 CLK32K GT CHG SWFB ADIN12 GNDRTC V33ISNS CHG Analog Integrated Circuit Device Data Freescale Semiconductor NC2 NC2 NC2 NC2 CPC2 GNDCP CPC1 CPIN AUD GNDAUD XTAL XTAL RX2 FS2 BCL2 BCL1 FS1 ...

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... SW15 HIPWR - PGND15 HIPWRGND - FB15 SGNL I V33EN SGNL O V33STTS SGNL I V33ISNS SGNL I Analog Integrated Circuit Device Data Freescale Semiconductor # of Rating BGA Location Balls 4 L5, L7 Gate Drivers Power Supply Input 4 K2, K4 High Side FET Gate Drive 4 H2, H4 Low Side FET Gate Drive - 2 ...

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... Output Voltage Feedback Input VBG - 1.25 V/2 mA LDO VCCA - 1.5 V/150 mA LDO 3 Power Supply Input, shared by VBG and VCCA - 1 N13 Ground Reference 2 VBG Output Voltage Node 2 VCCA Output Voltage Node 2 VCCA Output Voltage Feedback Input Pin Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... PVINIMG MDPWR - GNDIMG GND - VOUTIMG25 LOPWR - VOUTIMG28 MDPWR - Analog Integrated Circuit Device Data Freescale Semiconductor # of Rating BGA Location Balls VCC180- 1.8 V/390 mA LDO VPNL18- 1.8 V/225 mA LDO VPMIC - 1.8 V/50 mA LDO 3 A11, C11 Power Supply Input, shared by VCC180, VPNL18, and VPMIC ...

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... Bit clock for audio bus 2. Input in slave mode, output in master mode 3 J27 Frame synchronization clock for audio bus 2. Input in slave mode, output in master mode. 3 H28 Receive Data for audio bus 2 3 K26 Transmit data for audio bus 2 Pin Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... LOPWR - HSR LOPWR - CPIN LOPWR - CPC1 LOPWR - CPC2 LOPWR - Analog Integrated Circuit Device Data Freescale Semiconductor # of Rating BGA Location Balls Audio Transmit 3 P26 Handset primary/right and secondary/left microphone bias supply 3 N23 Headset microphone bias supply with integrated bias resistor and headset microphone detect 3 ...

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... Charger Input Current Sensing Positive Terminal 5 AG27 Charger Input Current Sensing Negative Terminal 5 AD22, AF22 Charger Buck Stage Input Voltage Node 5 AF24, AH24 Charger Buck High Side FET Gate Drive 5 AJ25 Charger Buck Switch Node Feedback Pin Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... GNDADC LOPWRGND - XTAL1 SGNL I XTAL2 SGNL O CLK32K SGNL O GNDRTC GND - Analog Integrated Circuit Device Data Freescale Semiconductor # of Rating BGA Location Balls 5 AE25, AG25 Charger Buck Low Side FET Gate Drive - 2 AF26, AH26 Charger Buck Stage Power Ground 4 AB26 Charger Buck Output Voltage Sense Node and Main Input for System Supplies ...

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... Enable Input signal for the VYMXPA rail. Asserted by the communications subsystem to enable a supply voltage with minimal latency. 2 B20 Enable Input signal for the VYMX3G rail. Asserted by the communications subsystem to turn on/off a supply voltage with minimal latency AB14 Logic Control Ground Pin Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... SGNL O GPO4 SGNL O GPO5 SGNL O GPO6 SGNL O GPO7 SGNL O PWRBTN SGNL I Analog Integrated Circuit Device Data Freescale Semiconductor # of Rating BGA Location Balls SPI Interface 3 L15 Supply for SPI Bus and Audio Bus 3 A15 SPI Clock Input 3 G15 SPI Write Input 3.6 V ...

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... H18, H22, J19, Substrate Ground J21, J23, L17, L19, M14, M18, N15, N17, N19, P12, P14, P16, P18, R11, R13, R15, R17, T12, T14, T16, T18, T22, U11, U13, U15, U17, U19, V12, V18 Pin Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Figure 5. SPI Read from PMIC Diagram (One Address/Data Packet shown) Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION SYSTEM CONTROL INTERFACE Table 6. SPI Interface Pin Functionality Pin Name ...

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... SPI configured with rising-edge clock where data is sampled on the rising edge of clock • CS (Chip Select) indicates when the master starts SPI data exchange also used to reset the SPI slave so that Analog Integrated Circuit Device Data Freescale Semiconductor Rail Output OFF OFF OFF ...

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... PMIC interrupts SCU, if both the 1st and 2nd level bits are not masked. 2. SCU reads PMIC master, 1st level, interrupt event register. Analog Integrated Circuit Device Data Freescale Semiconductor • VYMX3G =0.6V+ 0.025*{2^4*SDATA[15] + 2^3*SDATA[14] + 2^2*SDATA[13] + 2^1*SDATA[12] + SDATA[11]} Table 9. Advanced COMMs Mini-SPI Pin Functionality ...

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... BATOVP RSVD MCOMP MTEMP MBATOVP RSVD GPIINT2 GPIINT1 GPIINT0 HSDET HPDET SWMPINT SWLPINT MHSDE MHPDET MSWMPI MSWLPIN Table 11. Due to the asynchronous Analog Integrated Circuit Device Data Freescale Semiconductor Initial 0x00 0xFA 0x00 0x00 0x03 0x00 0x00 0x00 0x00 0x00 0X00 0X0F ...

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... Varies by regulator. Normally it is 1.5 times the regulator turn on time rising and 120 μs falling 19. Analog Integrated Circuit Device Data Freescale Semiconductor more detailed behavioral descriptions, refer to the related sections. Interrupt Event Condition PWRBTN falling edge detection ADC Round Robin Cycle Complete Touch Screen Wake-up Coulomb Counter is > ...

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... CHIPCNTL register. The RESET pin follows the DC Signaling specifications in Table 3 with a VCC of 1.8 V (VPMIC) with a reference of 1.8 V (VPMIC). illustrates the Voltage Regulators register write Idle Idle Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... CHIPCNTRL through bits WARMRST and COLDRST. The pulse should be held low for 5s < t < 31s.| Figure 10. Warm/Cold Reset Functionality Analog Integrated Circuit Device Data Freescale Semiconductor Table 13. CHIPCNTL Register Structure and Bit Description Name CHIPCNTL (ADDR R/W - Default Value: 0x00) ...

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... VID corresponds. One of the combinations is used to notify that the VID is invalid. This is used when the CPU is in C6/Standby, to tri-state the VID pins to save power. New Mode New Mode Table 3 with a reference of 1.05 V Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... VID setting for the VCC regulator, it will only change the VID combination by 1 step, which corresponds to Analog Integrated Circuit Device Data Freescale Semiconductor a voltage step of ±12.5 mV. During these changes, the VCC regulator must follow the 25 mV/ms slew rate specification. ...

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... VID VID (V) VID ( OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Reserved V3GPASTTS I Reserved Analog Integrated Circuit Device Data Freescale Semiconductor VCCLATCH register, and the output voltage of the regulator changes to what the VCCLATCH register is set. Figure 16 VRCOMP signal. The PMIC toggles the VRCOMP signal any time the DVPxVRD bit is set to a '1' and the output voltage of the VNN or the VCC regulator changes ...

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... RESETB Output Pin Driver Capability 7:6 CLK26K Output Pin Driver Capability 1:0 CLK26M Output Pin Driver Capability 3:2 V3GPAEN Output Pin Driver 5:4 Capability V33EN Output Pin Driver Capability 7:6 MISO Output Pin Driver Capability 1:0 Reserved 7:2 Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... CLK32K output pin, which is SPIVCC referenced. CLK32K is provided as a peripheral clock reference. The driver is enabled by the startup sequencer. Additionally, a SPI bit Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION CLOCK GENERATION AND REAL TIME CLOCK (RTC) TEST MODES Test Mode Configuration ...

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... Select the data format by writing the appropriate values to the DM and 24/12 bits in Register B. Next, the program should initialize all 10 time, calendar, and alarm locations in the format specified by Register B (binary or BCD hour). All 10 time, calendar, and Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... In Analog Integrated Circuit Device Data Freescale Semiconductor The 24/12 bit in Register B establishes whether the hour locations represent 1-to-12 or 0-to-23. When the 12 hour format is selected the high order bit of the hour bytes represents PM when " ...

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... The three alarm bytes may be used to generate a daily alarm interrupt. When the program inserts an alarm time in the appropriate hours, minutes, and seconds alarm locations, the alarm interrupt is initiated at the specified time each day, if the alarm enable bit is high. Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... AM/PM Alarm Setting, Only active during 12 Hr mode Analog Integrated Circuit Device Data Freescale Semiconductor CLOCK GENERATION AND REAL TIME CLOCK (RTC) Calibration can be turned on by setting the RTC ADJ bit of the ADJ register. A "0" in the ADJ bit turns calibration off. The Sign bit in the Trim register determines if periodic adjustments are made to speed up or slow down the clock ...

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... RTCDM (ADDR 0x17 - R/W - Default Value: 0x01) RTCM2 (ADDR 0x18 - R/W - Default Value: 0x01) RTCY (ADDR 0x19 - R/W - Default Value: 0x00) Description RTCA (ADDR 0x1A - R - Default Value: 0x20) RTCB (ADDR 0x1B - R/W - Default Value: 0x02) Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... RTC Calibration Sign Bit x0 = Add x1 = Subtract Analog Integrated Circuit Device Data Freescale Semiconductor CLOCK GENERATION AND REAL TIME CLOCK (RTC) RTCC (ADDR 0x1C - R - Default Value: 0x00) RTCD (ADDR 0x1D - R - Default Value: 0x00) RTCE (ADDR 0x1E - R/W - Default Value: 0x05) ADJ (ADDR 0x1F - R/W - Default Value: 0x00) ...

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... Figure 17 tree. RTC ACTIVE STATE STATE UVDET Keep Alive VCOREDIG EN Registers 1.5V Digital Supply Closed when VCOREDIG > 1. block diagram of the 900841 internal power V PWR EN VCOREREF EN VCORE 1.2V 2.775V Reference Supply Analog Supply Analog Integrated Circuit Device Data Freescale Semiconductor EN ...

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... Core Supply) VCORE (Analog Core Supply) POWER STATES Figure 18 shows the flow of power, the different power states, and the conditions necessary to transition between Analog Integrated Circuit Device Data Freescale Semiconductor This is the coin cell battery voltage, backup COINCELL Battery battery V > V ...

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... V PWR PWRUVR * Internal supplies/references ON * Logic is reset * Initial power sequence performed * SPI ready * SCU interrupted V < RAWCHG V & RAWCHGDET V > V BAT LOWBAT SCU CONTROL * Buck Charger ON > V RDSTATE = 0x03) BAT trkl, < BAT trkl NO Analog Integrated Circuit Device Data Freescale Semiconductor & ...

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... SPI communication is available. All features of the 900841 are either operating or can be enabled, which is under the control of the Platform controller hub. Analog Integrated Circuit Device Data Freescale Semiconductor The key to entering the active state is a valid V voltage. The following examines how the 900841 ramps up V depending on the available power source: ...

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... System can turn OTG Host mode OFF 4.2 V Charging OFF 4.2 V USB Supplies System - No Battery Operation - No Charging OFF VBAT+0.3 V Charging OFF VBAT+0.3 V USB Supplies System - No Battery Operation - No Charging Interrupt Controller for more information on the Analog Integrated Circuit Device Data Freescale Semiconductor value, PWR ...

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... NC drives the VCC boot VID on the VID pins. The VIDEN[1: enables, only after HPLL has locked. 14. X86 Instruction Executions starts. Analog Integrated Circuit Device Data Freescale Semiconductor Figure 19. 900841 Initial Power Up Sequence Table 28. SC900841 Initial Power Up Timing Parameter t ...

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... Symbol V RAWCHGDET V RAWCHGDETHYS V BATOFF V COINOFF V LOWBAT V TRKL V PWRUVR V PWRUVF describes the functionality of the PWRBTN: summarizes the various detection thresholds Min Typ Max - - 4.50 - 100 - 2.2 - 2.4 1.8 - 2 2.55 - Analog Integrated Circuit Device Data Freescale Semiconductor Unit ...

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... PVIN POWER PATH RAW POWER MANAGER + USB or AC SYSTEM CHARGER ADAPTER BATTERY 3.0 - 4.4V 1800 mAHr Analog Integrated Circuit Device Data Freescale Semiconductor POWER SUPPLIES DC/DC VCC (0.65V-1.2V) Max Current 3500mA DC/DC VNN (0.65V-1.2V) Max Current 1600mA VDDQ (1.8V) DC/DC 1372mA Max Current VBG (1 ...

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... FET to support host mode in USB On-The-Go systems. 2.0 MHz non-synchronous Boost PWM current mode control DC/DC regulator 120 mA with internal low side FET to support LED backlighting system. provides a summary of all DC/DC regulators on Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... It is used to provide power to the CPU Core. • Single-Phase Solution with Integrated Drivers and external MOSFETs Analog Integrated Circuit Device Data Freescale Semiconductor internally set 25 mV/µs to minimize transient currents and audible noise. The switcher can operate in different modes depending on the load conditions. These modes can be set through the SPI and include a PFM mode, an Automatic Pulse Skipping mode, and a PWM mode ...

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... Description VCCCNT (ADDR 0x35 - R/W - Default Value: 0x24 OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM VCCLATCH (ADDR 0X32 - R/W - Default value: 0x7F) Figure 24 are calculated under Figures 15 for more Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... MHz switching frequency • High efficiency operating modes depending on load conditions Analog Integrated Circuit Device Data Freescale Semiconductor with internal compensation eliminates the need for the feedback and compensation network, which saves board space and cost. The DAC/output voltage slew rate is internally set 25 mV/µ ...

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... Figure 26. VNN Efficiency Curve Description VNNCNT (ADDR 0x36 - R/W - Default value: 0x04) VNNLATCH (ADDR 0x33 - R/W - Default value: 0x7F OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM Figure 15 Analog Integrated Circuit Device Data Freescale Semiconductor for more ...

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... MHz switching frequency • High efficiency operating modes depending on load conditions Analog Integrated Circuit Device Data Freescale Semiconductor VDDQ will be discharged every time the regulator is shutting down. The output current is measured internally, digitized by the ADC, and stored in a register for the processor to access. ...

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... Peak current sensing with over-current protection • Uses internal compensation • Gate drive circuits are supplied directly from VPWR x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM CTLV21 AOACCTLV21 V21FAULT SPI Interface Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... PWM mode. The above selection is optimized to maximum battery life based on load conditions. V15 will be discharged every time the regulator is shutting down. Analog Integrated Circuit Device Data Freescale Semiconductor values and typical output voltage of 2.1 V. 3.0 V ≤ VPW ≤ 4.4 V. Figure 30. V21 Efficiency Waveforms Description ...

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... The following efficiency curves are calculated under PWM mode, based on the recommended external component values and typical output voltage of 1.5 V. 3.0 V ≤ VPWR ≤ 4.4 V. Figure 32. V15 Efficiency Curves CTLV15 AOACCTLV15 SELV15 V15FAULT SPI Interface Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... PWR C INYMX 3G V YMX 3G L YMX 3G C OYMX 3G Figure 33. VYMX3G Detailed Internal Block Diagram Analog Integrated Circuit Device Data Freescale Semiconductor Description V15CNT (ADDR 0x39 - R/W - Default value: 0x07 OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM The peak current is sensed internally for over-current protection purposes ...

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... V. 3.0 V ≤ VPWR ≤ 4.4 V. Figure 34. VYMX3G Efficiency Curves Description VYMX3GCNT (ADDR 0x3C - R/W - Default Value: 0x24 OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM x4 = OFF x5 = PFM x6 = Automatic Pulse Skipping x7 = PWM Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... During operation, if the output voltage is decreased below the under-voltage threshold, an under- voltage condition is detected, and VYMXPAFAULT is asserted. Analog Integrated Circuit Device Data Freescale Semiconductor then do not populate the switch and ground the YMXPAGTIN and YMXPAGT pins. When M feedback node after or before the switch. Accuracy is maintained where the feedback node is connected ...

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... The following efficiency curves are calculated based on the recommended external component values and typical output voltage. 3.0 V ≤ VPWR ≤ 4.4 V. Curves below do not take in account the switch drop across M = 4.2 V) OYMXPA Analog Integrated Circuit Device Data Freescale Semiconductor PWR YMXPA. ...

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... Don’t Copy VYMX3GPA Output Voltage Settings SELVYMX3GPA 7 4.2 V (WiMAX application Reserved x2 = 5.0 V (General use applications Not Used Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION POWER SUPPLIES = 5.0 V) OYMXPA Description x4 = Output is OFF x5 = Not Used x6 = Not Used x7 = Output is ON ...

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... Discharge FET Active State can still be used as OTG is used, then users can OTG can also connect to OOTG is used and the OTG is not used, OTG CTLVOTG AOACCTLVOTG VOTGDISDSCH Controller VOTGFAULT SPI Interface Analog Integrated Circuit Device Data Freescale Semiconductor for more is OTG ...

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... VOTGFAULT is cleared, assuming no other faults are occurring. automatic restart after this event, and VOTG has to be re- Analog Integrated Circuit Device Data Freescale Semiconductor CTLVOTG, and the boost is controlled directly via the CTLVOTG. If CHRG=1, then the isolation FET is controlled via the OTGB signal ...

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... V ≤ VPWR ≤ 4.4 V. The following curves do not take in account the switch drop across M Figure 39. VOTG Efficiency Curves Description x4 = VOTG is OFF x5 = Not Used x6 = Not Used x7 = VOTG VOTG is OFF x5 = Not Used x6 = Not Used x7 = VOTG is ON PWR OTG. Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Or Backlight 4 String Figure 40. VBKLT Detailed Internal Block Diagram Analog Integrated Circuit Device Data Freescale Semiconductor enabled only when one or both of the prior two loads is enabled. It contains adaptive boost control when backlight LEDs are running, to minimize the voltage headroom across the ...

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... Table 41. VBKLT Voltage S4ADAPT Reference 0 OFF 0 Fixed 1 Adaptive x Invalid x Adaptive x Adaptive x Adaptive x Adaptive outlines different cases for VBKLT operation, 42. outlines the relation between the different enable String 1-3 String 4 OFF OFF OFF Camera Scene Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... During operation if the output voltage decreased below the undervoltage threshold, an undervoltage condition is detected, VBKLTFAULT is asserted. If the output voltage rises above the under-voltage threshold plus hysteresis, then the VBKLTFAULT signal is cleared, assuming no other faults are occurring. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 88

... Efficiency Curves The efficiency curves in the recommended external component values and typical output voltage. 3.0 V ≤ VPWR ≤ 4.4 V Figure 41. VBKLT Efficiency Curves Lighting System. rail as its power supply PWR Figure 41 are calculated based on Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 89

... V 250 mA VMM 1.2 V 5.0 mA Analog Integrated Circuit Device Data Freescale Semiconductor LDO POWER SUPPLIES • This is not a functional mode, thus requiring certain steps to prevent unintentional activation of this mode • During this mode, the device performs measurements and trimming All LDOS are able to work in a low power mode, in which the bias current is reduced ...

Page 90

... The output for each LDO is monitored for over-current conditions and under-voltage events VBG Status/Control Registers and Bits Description Reference the register map for read/write conditions and default state for each of these registers. Description CTLVBG AOACCTLVBG SPI Interface VBGFAULT Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 91

... Reserved x1 = Reserved x2 = Reserved x3 = Reserved Analog Integrated Circuit Device Data Freescale Semiconductor Description VLBGCNT (ADDR 0x3F - R/W - Default Value: 0x24) VCCA shares an input voltage pin (PVIN1P8) and a reference ground pin (GND1P8) with VBG regulator, yet each has independent control. PVIN1P8 is supplied from the VDDQ voltage ...

Page 92

... The output for each LDO is monitored for over-current conditions and under-voltage events VCC180 Status/Control Registers and Bits Description Description VCC180CNT (ADDR 0x43 - R/W - 0x3C OFF x5 = Low Power x6 = Active x7 = Active ADC Subsystem for more CTLVCC180 SPI Interface Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 93

... Do not copy not copy not copy Reserved Reserved 7:6 Analog Integrated Circuit Device Data Freescale Semiconductor x4 = OFF x5 = Low Power x6 = Active x7 = Active VPNL18 shares an input voltage pin (PVIN2P1) and a reference ground pin (GND2P1) with VCC180 and VPMIC regulators, yet each has independent control. PVIN2P1 is supplied from the V21 voltage ...

Page 94

... The output for each LDO is monitored for over-current conditions and under-voltage events VPMIC Status/Control Registers and Bits Description Description VPMICCNT (ADDR 0x41 - R/W - Default Value: 0x07) CTLVPMIC AOACCTLVPMIC SPI Interface VPMICFAULT x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 95

... Reserved Reserved 7:6 Analog Integrated Circuit Device Data Freescale Semiconductor VYMXYFI18 can be supplied by either the V21 output voltage (V21) or directly from the VPWR node. Using V21 as the input voltage supply offers enhanced thermal performance and higher efficiency. Using the VPWR node can offer enhanced performance against noise coupling from an output of a DC/DC regulator ...

Page 96

... Note that when VYMXGPS is set at 1.3 V, V15 is automatically set at 1 maintain voltage headroom for the operation of 1.3V VYMXGPS. Reference details. Management. CTLVGYMXIO SELVGYMXIO CTLVWDYMXA SPI Interface SELVWDYMXA VYMXYFIFAULT Thermal Management. V15 for more Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 97

... VGYMXIO State Control during AOAC Exit (when the Exit pin is EXITSTBY pin is asserted). These bits will be AOACCTLVGYMXIO 5:3 initialized by the system SPI controller after power not copy not copy not copy not copy VGYMXIO output voltage selection bits SELVGYMXIO 7 1 2.5 V Analog Integrated Circuit Device Data Freescale Semiconductor Controller V REF OYMXGPS Output Monitor I OYMXGPS Discharge ...

Page 98

... Discharge • Optimized for a 2.2 µF external filter capacitor with a maximum of 10 mΩ ESR • Uses an internal pass FET • The output for each LDO is monitored for over-current conditions and under-voltage events SPI Interface Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 99

... Bits VCCPDDRCNT (ADDR 0x3E - R/W - Default value: 0x3C) VCCPDDR State Control CTLVCCPDDR 2 Reserved x1 = Reserved x2 = Reserved x3 = Reserved Analog Integrated Circuit Device Data Freescale Semiconductor Description x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active VCCPDDR shares an input voltage pin (PVIN1P5) and a reference ground pin (GND1P5) with the VCCPAOAC, VAON, VMM, and VCCP regulators, yet each has independent control ...

Page 100

... VAON Status/Control Registers and Bits Description Description VAONCNT (ADDR 0x45 - R/W - Default Value: 0x07 OFF x5 = Low Power x6 = Active x7 = Active CTLVAON AOACCTLVAON SPI Interface VAONCFAULT x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 101

... Do not copy Reserved Reserved 7:6 Analog Integrated Circuit Device Data Freescale Semiconductor VMM shares an input voltage pin (PVIN1P5) and a reference ground pin (GND1P5) with the VCCPAOAC, VCCPDDR, VAON, and VCCP regulators, yet each has independent control. PVIN1P5 is supplied from V15 voltage. ...

Page 102

... The output for each LDO is monitored for over-current conditions and under-voltage events VCCP Status/Control Registers and Bits Description Description VCCPCNT (ADDR 0x44 - R/W - Default Value: 0x3C) CTLVCCP AOACCTLVCCP SPI Interface VCCPFAULT x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 103

... Reserved Reserved 7:6 Analog Integrated Circuit Device Data Freescale Semiconductor VIMG25 shares an input voltage pin (PVINIMG) and a reference ground pin (GNDIMG) with the VIMG28 regulator, yet each has independent control. Both can be supplied by either the V33 output voltage (V33) or directly from the VPWR node, depending on the output voltage selection of LDO VIMG28 ...

Page 104

... VIMG28 Status/Control Registers and Bits Description Description VIMGACNT (ADDR 0x0x48 - R/W - Default Value: 0x24) Thermal decreases BAT + 300 mV. OIMG28 CTLVIMG 28 AOACCTLVIMG 28 SELVIMG28 SPI Interface VIMG28CFAULT x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 105

... 2 2.7 V Analog Integrated Circuit Device Data Freescale Semiconductor PSRR, with a low quiescent current and fast transient response. VVIB is actively discharged during shutdown used to drive the vibrator motor for alert functions, and it takes its input voltage directly from the VPWR node. ...

Page 106

... The output is monitored for under-voltage and overcurrent conditions in LDO mode. VSDIO Status/Control Registers and Bits Description Description VSDIOCNT (ADDR 0x4D - R/W - Default Value: 0x64) CTLVSDIO AOACCTLVSDIO SELVSDIO SPI Interface VSDIOFAULT x4 = OFF x5 = Low Power x6 = Active x7 = Active x4 = OFF x5 = Low Power x6 = Active x7 = Active Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 107

... Reserved x1 = Reserved x2 = Reserved x3 = Reserved Analog Integrated Circuit Device Data Freescale Semiconductor switches, all of which are housed in the 900841 PMIC. Table 61 characteristics. Power Switch with integrated MOSFET and less than 1% voltage drop. Power Switch with integrated MOSFET and less than 1% voltage drop. ...

Page 108

... V33 Status/Control Registers and Bits Description Description V33CNT (ADDR 0x3A - R/W - Default Value: 0x24) Table 64 OFF x5 = Low Power x6 = Active x7 = Active rail as its power supply PWR x4 = OFF x5 = Low power x6 = PWM x7 = PWM x4 = OFF x5 = Low power x6 = PWM x7 = PWM Analog Integrated Circuit Device Data Freescale Semiconductor initial 0x00 ...

Page 109

... FSLTONTCNTL2 (ADDR 0x1CB - R/W - Default Value: 0xAA) Turn On Time Settings for V21 Regulator V21TONT 1 320 μ 160 μ μ μs Turn On Time Settings for V15 Regulator V15TONT 3 200 μ 100 μ μ μs Reserved Reserved 7:4 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 110

... The BATOCP comparator can be shutdown when the battery is not being discharged. Description CHRGPROT2 (ADDR 0xD8 - R/W - Default Value: 0x60) Parameter Min Typ 115 120 2 - 130 140 Analog Integrated Circuit Device Data Freescale Semiconductor Initial Power Max Unit 125 °C 4 °C 150 °C ...

Page 111

... No Fault Exists x1 = Fault Exists Analog Integrated Circuit Device Data Freescale Semiconductor All of the xxxFAULT signals from all power supplies are ORed together into the BATOCP interrupt signal, which in turn if unmasked, sets the VRFAULT 1st level interrupt that causes the PMICINT pin to assert, notifying the system event. ...

Page 112

... VCCP Regulator Fault Signal VCCPFAULT Fault Exists x1 = Fault Exists VIMG25 Regulator Fault Signal VIMG25FAULT Fault Exists x1 = Fault Exists 900841 112 FSLFAULT3 (ADDR 0x1CE - R/W - Default Value: 0x00) FSLFAULT4 (ADDR 0x1CF - R/W - Default Value: 0x00) Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 113

... Flag unmasked x1 = Flag masked Regulator fault present flag or battery discharge over current Mask VRFAIL Flag unmasked x1 = Flag masked Reserved Reserved 7:3 Analog Integrated Circuit Device Data Freescale Semiconductor Description VRFAULTINT (ADDR 0X30 - R - Default Value: 0x00) FUNCTIONAL DEVICE OPERATION POWER SUPPLIES 900841 113 ...

Page 114

... Min on time (s) Duty cycle [reg Min on time (μs) M=0] 3.06 e-05 30.64 1.53 e-05 15.32 7.66 e-06 3.83 e-06 1.91 e-06 9.57 e-07 4.79 e-07 Analog Integrated Circuit Device Data Freescale Semiconductor Duty cycle 0.39% 0.78% 1.17% 1.56 100.00% 7.66 3.83 1.91 ...

Page 115

... LCD Backlight PWM Frequency settings for string 4 in single backlight configuration or for strings 3-4 for independent BKLTFREQ2 6:4 zone backlighting configuration. See Analog Integrated Circuit Device Data Freescale Semiconductor Description BKLTCNT (ADDR 0x28 - R/W - Default Value: 0x00) BKLTFREQ (ADDR 0x29 - R/W - Default Value: 0x00) ...

Page 116

... PWM cycle and the final PWM cycle example, starting from 0/32 and going to 32/32 will take 500 ms, while going to from 8/32 to 16/32 takes 125 ms. Note that the ramp function is executed upon every change in PWM cycle LCD Backlight Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 117

... Analog Integrated Circuit Device Data Freescale Semiconductor switching edges of the output drivers are softened. During blinking, so LEDxBLNK[1:0] is not "00", ramping and dimming patterns cannot be applied. Apart from using the signal/status LED drivers for driving LEDs they can also be used as general purpose open drain outputs for logic signaling or as generic PWM generator outputs ...

Page 118

... After enabling the FSL register control, if the user wishes to revert back to “normal control” with 0.5 sec ON time, just write something different than 00 to the LEDxBLNK fields. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 119

... No Blink 8.0 s LEDG1 Driver PWM Duty Cycle Settings LEDG1DC 7:2 x00=0/32 x01=1/32 x02=2/32 x03=3/32 x04=4/32 x05=5/32 x06=6/32 x07=7/32 Analog Integrated Circuit Device Data Freescale Semiconductor Description x08=8/32 x10=16/32 x09=9/32 x11=17/32 x0A=10/32 x12=18/32 x0B=11/32 x13=19/32 x0C=12/32 x14=20/32 x0D=13/32 x15=21/32 x0E=14/32 x16=22/32 ...

Page 120

... ON) x21-x3F=Don’t Care x18=24/32 x19=25/32 x1A=26/32 x1B=27/32 x1C=28/32 x1D=29/32 x1E=30/32 x1F=31/32 x20=32/32 (Continuous ON) x21-x3F=Don’t Care Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 121

... LEDR1 Driver Ramp Up – Ramp Down Patterns Enable Bit LEDG1RAMP Disable x1 = Enable LEDR1 Driver Ramp Up – Ramp Down Patterns Enable Bit LEDB1RAMP Disable x1 = Enable Analog Integrated Circuit Device Data Freescale Semiconductor x08=8/32 x10=16/32 x09=9/32 x11=17/32 x0A=10/32 x12=18/32 x0B=11/32 x13=19/32 x0C=12/32 x14=20/32 ...

Page 122

... A USB or 1.8 A power source device). • A bi-directional source in the form of a rechargeable single cell Li-Ion or Li-Polymer Battery. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 123

... PWR supply the system loads. The feedback is taken from a conventional internal resistor divider connected at the VPWR pin. This supports dead battery operation and Analog Integrated Circuit Device Data Freescale Semiconductor BATTERY INTERFACE AND POWER PATH MANAGEMENT RAWCHG OVPCHGGT Input Voltage Level Detection ...

Page 124

... BAT – regulates the PWR BAT and controlling value resulting in SNSBAT CHG . Therefore, the CHGCC influences the charge current, and its SNSBAT Analog Integrated Circuit Device Data Freescale Semiconductor if used. , REVPCHG body , CHG for more ) CHGCC ) ) as PWR ) CHGCC ...

Page 125

... TRICKLE CHARGE Once the charger is enabled and if V trickle charge starts. The trickle charge current I selectable with a default current of 40 mA, and is provided by Analog Integrated Circuit Device Data Freescale Semiconductor BATTERY INTERFACE AND POWER PATH MANAGEMENT and Charge Starts and Charge Ends CHGCC ...

Page 126

... BAT , and the RCHG can be set by SPI programming the CV V RCH G TIME =R *e^(B*(1/T – being room temperature, R the thermistor value 0 0 from the VNTC pin, which switches the NTC Analog Integrated Circuit Device Data Freescale Semiconductor ) CHGCC . CHGCOMP ...

Page 127

... Lithium-Ion batteries. The coin cell charger is enabled via the COINCHGEN bit. which is enabled by default. The output Analog Integrated Circuit Device Data Freescale Semiconductor BATTERY INTERFACE AND POWER PATH MANAGEMENT correspond to one of the previous ranges, depending if the IC is charging or discharging the battery. ...

Page 128

... MBATOVP Unmask x1 = Mask 900841 128 Description CHRGINT (ADDR 0xD0 - R - Default Value: 0x00) > BAT CHGCV OVRVOLT ) & I < CHRGCOMP setting (IEOC) CHRGCV CHG RAWCHG MCHRGINT (ADDR 0xD1 - R/W - Default Value: 0x00) ) > connected or RAWCHG RAWCHGDET > RAWCHGOVP Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 129

... Charger Input Over-voltage Status SUSBOVP Charger input voltage is lower than the limit (< Charger input voltage is higher than the limit (> V Analog Integrated Circuit Device Data Freescale Semiconductor BATTERY INTERFACE AND POWER PATH MANAGEMENT SCHRGINT (ADDR 0xD2 - R - Default Value: 0x00 CHGCV OVRVOLT ...

Page 130

... Forced Stop Charge x0F = Reserved CHRGCNTL (ADDR 0xD4 - R/W - Default Value: 0xA1) and M ) CHG CHGBYP and M ) CHG CHGBYP CHRGCRNT (ADDR 0xD5 - R/W - Default Value: 0x00) CHGCC x8 = 1000 1100 1200 1300 1400 1500 1600 1700 mA Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 131

... Charger Timer Settings CHRGTIMER 8.0 hr Analog Integrated Circuit Device Data Freescale Semiconductor BATTERY INTERFACE AND POWER PATH MANAGEMENT x4 = 200 240 280 320 mA CHRVOLT (ADDR 0xD6 - R/W - Default Value: 0x07) CHGCV x8 = 4.225 4.250 4.275 4.300 4.325 ...

Page 132

... WDRCLR (ADDR 0xDA - W - Default Value: 0x03) Not Supported, Reserved 0 Not Supported, Reserved 1 Not Supported, Reserved 2 Not Supported, Reserved 3 Not Supported, Reserved 4 Not Supported, Reserved 5 Not Supported, Reserved 6 Not Supported, Reserved 7 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 133

... Range: 90 dBA typ • DAC •THD+N: -80 dBA (0.01%) max •SNR: 100 dBA typ •Dynamic Range: 96 dBA typ Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION AUDIO TRANSMIT PATH • Transmit Line-up • Analog PGA -8 + 1.0 dB steps • Selectable preamplifier 0/12 dB • ...

Page 134

... Transmit Analog Left Receive Analog Transmit Analog Right Transmit Analog Left Receive Analog Right Receive Analog Left On chip 26MHz Typical Maximum 1.8 3.3 I2SVCC 0 0.3* I2SVCC 0 0.2 I2SVCC 1.8 0.7*CPIN CPIN 0 0.3* CPIN 0 0.2 CPIN Analog Integrated Circuit Device Data Freescale Semiconductor Units ...

Page 135

... Master mode is selected by setting the VCEMASTEN bit. In master mode, the voice Analog Integrated Circuit Device Data Freescale Semiconductor SSIDRV[1:0]=00 (default) SSIDRV[1:0]=01 SSIDRV[1:0]=10 SSIDRV[1:0]=11 ...

Page 136

... Slot 0 Bit n Bit 0 Bit n Bit 0 Hi- Bit n Bit 0 Bit n Bit 0 Z Slot 0 Slot 1 Bit n Bit 0 Bit n Bit 0 Hi- Bit n Bit 0 Bit n Bit 0 Z Slot 0 Slot 1 Figure 68 and Bit n Bit n Bit n Bit n Slot 0 Bit n Bit n Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 137

... STRBCLINV bit. The interface operates with a long (word-length) frame sync, which also identifies left vs. right stereo channel words mode, the frame sync leads the data MSB by 1 bit clock Analog Integrated Circuit Device Data Freescale Semiconductor Bit n Bit 0 Bit n Bit 0 Bit n Bit n ...

Page 138

... Bit 1 Bit 0 Bit n Right Left Ch Ch Bit 1 Bit 0 Bit n Bit 1 Bit 0 Bit n Right Left Ch Ch Bit 1 Bit 0 Bit n Bit 1 Bit 0 Bit n Right Left Ch Ch Minimum Typical Maximum 1.36 -1.0 1 -60 -78 -40 Analog Integrated Circuit Device Data Freescale Semiconductor Units dBm0 P dB ...

Page 139

... VCORE for its analog and VCOREDIG for its digital sections. The voice ADC and the stereo ADC use the same converter Analog Integrated Circuit Device Data Freescale Semiconductor 0.4535*FS signal is digitally band-pass filtered. An optional high-pass filter can also be enabled by setting the VCEAUDHPF bit. ...

Page 140

... Condition Minimum (27) (28) Typical Maximum Units 2 -0.5 +0.5 90 -85 - 100 -75 -75 3 -0.5 0.5 0.5465*FS 85 -15 +15 Typical Maximum Units 2 -0.5 +0 dBA -83 dBA 90 dBA 90 dBA -75 -75 3 Analog Integrated Circuit Device Data Freescale Semiconductor dBA dBA dBA dBA ° ...

Page 141

... Table 87. Microphone Bias Parametric Specifications Parameter Microphone Bias Output Voltage Microphone Bias Current Output Current Capability PSRR Output Noise Microphone Detect Voltage Analog Integrated Circuit Device Data Freescale Semiconductor 0.4535*FS -0.5 Digital Microphone Path 0dB to +7dB Atxl 1dB Steps TXIN Left ...

Page 142

... LAMPMUT bit. The selected signal can be routed to the receive section and it can be converted by the ADC left channel. The ADC gain can be adjusted with the VCEPGATX[4:0] bits. Before μ μ A 650 Figure 71. When in voice Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 143

... Analog Integrated Circuit Device Data Freescale Semiconductor Condition Minimum 2.0 MHz by setting the DMICCLK[0] bit. The exact clock frequency will vary as a function of the ADC sample rate. The MC2IN input is configured for digital microphone use by setting the MUXIN bit ...

Page 144

... Wideband Stereo -57dB to +6dB 16bit RX Left 1dB Steps From Digital Interface 16bit -57dB to +6dB RX Right 1dB Steps Arxr TXINR From -57dB to +6dB Transmit Section 1dB Steps Arxl TXINL … … … 111110 +5 dB 111111 +6 dB Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 145

... PSCNTLHPR and Table 93. Amplifiers Ahsr and Ahsl Performance Specifications Parameter Single Ended Output Swing Gain Analog Integrated Circuit Device Data Freescale Semiconductor by setting the PSCNTSPKR bit, with the output signal muted by setting the MUTASP bit. Condition Minimum 4.0 SPP-SPM 9 ...

Page 146

... MIC2BIAS in order to detect what kind of accessory or to detect between long or short button switches. - 750 - - - 8 -75 12 Typical Maximum - - 0 0.5 200 - - - 100 - - - - - Analog Integrated Circuit Device Data Freescale Semiconductor μ dBA μ VrmsA Ω Units μ dBA μ VrmsA Ω ...

Page 147

... Interrupt mask bit: MHSDET (1=masked, 0=unmasked) SWMPINT = Momentary Button Press • Detect a short button press of < 2 headset button. • Interrupt is set after the button is released • Interrupt mask bit: MSWMPINT (1=masked, 0=unmasked) Analog Integrated Circuit Device Data Freescale Semiconductor Rb 2.2K 0.22UF Jack JACKM ...

Page 148

... Momentary button push . Take act ion Yes AUX = 1, (answer inc omi ng SWMP INT = 1 call track , A ll int errupts = Long button push . Yes AUX = 1, Take ac tion (end call , SWLPINT = playbac c.) All interrupts = 0 No Description Analog Integrated Circuit Device Data Freescale Semiconductor All interrupt ...

Page 149

... RSVD 3 RSVD 4 STRBCLINV 5 STRMASTEN 6 STRTSB 7 Analog Integrated Circuit Device Data Freescale Semiconductor Selects left or right justified frame for Mode 3 Data clocking falling edge BCL1 rising edge BCL1 Bus operation x0 = Slave mode x1 = Master mode State of TX1 x0 = Tri-stated x1 = Active AUD2 (ADDR 0x181 - R/W - Default Value: 0x00) ...

Page 150

... Right-justified x3 = Reserved (defaults to right-justified) Send voice data to PCM2 when '1' Digitally mix ADC input to both left and right channels Reserved Frame sync FS2 polarity inversion x0 = Not inverted x1 = Inverted kHz kHz x8 = 44.1 kHz kHz xA-xF = Reserved Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 151

... DMICMUTE 5 MIC1BIAS 6 DMICCLKEN 7 Analog Integrated Circuit Device Data Freescale Semiconductor Enable fsync and bitclk generation in master mode x0 = clk gen disabled x1 = clk gen enabled Audio ADC / DAC digital filters reset x0 = Self cleared x1 = Reset AUD7 (ADDR 0x186 - R/W - Default Value: 0x00) Digital microphone volume ...

Page 152

... Digital microphone input AUD13 (ADDR 0x18C - R/W - Default Value: 0x00) Volume control of voice ADC -3.0 dB x6= -2.0 dB x7= -1.0 dB Selects voice clkin frequency, default is 26 MHz 7.0 dB x10 - x1F = Reserved. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 153

... MXLMNDAC 5 Reserved 6 MXLLINL 7 Analog Integrated Circuit Device Data Freescale Semiconductor AUD14 (ADDR 0x18D - R/W - Default Value: 0x00) Audio ADC PGA steps Enable ADC PGA Selects stereo clkin frequency, default is 26 MHz Reserved AUD15 (ADDR 0x18E - R/W - Default Value: 0x00) Voice DAC volume control ...

Page 154

... Ear piece amplifier enabling x0 = Disabled x1 = Enabled Headphone amplifier right enabling x0 = Disabled x1 = Enabled Headphone amplifier left enabling x0 = Disabled x1 = Enabled Line out amplifier right enabling x0 = Disabled x1 = Enabled Line out amplifier left amplifier enabling x0 = Disabled x1 = Enabled Reserved Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 155

... SWMPINT 1 HPDET 2 HSDET 3 Reserved 7:4 MSWLPINT 0 Analog Integrated Circuit Device Data Freescale Semiconductor Loudspeaker amplifier right enabling x0 = Disabled x1 = Enabled Loudspeaker amplifier left enabling x0 = Disabled x1 = Enabled AUD23 (ADDR 0x196 - R/W - Default Value: 0x00) Voice ADC enabling x0 = Disabled x1 = Enabled Audio ADC enabling x0 = Disabled ...

Page 156

... The ADC will be used for sensing the current through select voltage regulators, touch screen support, PMIC thermal sensor, battery voltage, battery current, battery temperature and for sampling the battery coulomb counter. Figure representation of the ADC block. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 157

... Analog Integrated Circuit Device Data Freescale Semiconductor Figure 75. ADC Block Representation Table 96 gives ADC Input Signal Input Level PMIC Die Temperature 1.2 – 2.4 V VCC Current Sense VNN Current Sense VCC180 Current Sense VDDQ Current Sense ...

Page 158

... Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved is a proposed usage for some of these Scaling Scaled Version /2 0 – 2.4 V Reserved Reserved Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 159

... Battery Voltage (V 7 00111 Battery Current (V BAT – 8 01000 Adaptor Voltage 9 01001 Battery Pack Thermistor Analog Integrated Circuit Device Data Freescale Semiconductor -300 – 300 mV ) ISNSBATN ) 0 – 3.6 V COINCELL 0 – V CORE Reserved Reserved Reserved Reserved Reserved to the ADC. The result of the ADC conversion is stored into the result registers (ADCSNSx), along with the input gain setting (1 MSB) ...

Page 160

... Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved shows a summary of these regulators, Type Current Range Buck 0A – 3.5 A Buck 0A – 1.6 A LDO 0A – 0.39 A Buck 0A – 1.4 A Buck/Boost 0A – 1.4 A Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 161

... ADCCNTL3 and ADCCNTL4 registers. A gain of 0 sets a Analog Integrated Circuit Device Data Freescale Semiconductor terminal voltage at VBAT and the voltage difference between VBAT and ISNSBATN are sampled simultaneously, but converted one after the other. This is done to efficiently perform the voltage and current reading at the same time ...

Page 162

... A To Charger the above inputs can be used as general purpose inputs. In this Connection case, the bias control will always be programmed to no bias. Figure 76 COIN 2.400 V 3.600 V 1.200 V 1.800 V 0.000 V 0.000 touch screen representation. Analog Integrated Circuit Device Data Freescale Semiconductor *2/3. ...

Page 163

... Together with the battery voltage reading, the battery capacity can be estimated. More Analog Integrated Circuit Device Data Freescale Semiconductor Figure 76. Touch Screen Configuration Example The readouts are designed such that the on chip switch resistances are of no influence to the overall readout. The readout scheme does not account for contact resistances, as present in the touch screen connectors ...

Page 164

... GPADC registers. The coulomb counter enable is a logical OR of CCEN and STARTCC, and the coulomb counter reset is a logical OR of CCCLEAR and RSTCC. The user must take note of this to avoid uncertainty of whether the Figure SPI BITS CCOUT RTC Analog Integrated Circuit Device Data Freescale Semiconductor 77. ...

Page 165

... Reserved Reserved 7:3 Analog Integrated Circuit Device Data Freescale Semiconductor The block also contains fault detection logic, which sets the CCFAULT bit in the CCCREG register, if the CCOUT counter overflows during charging - i.e., if the CCOUT count exceeds the maximum positive 15-bit value (32767) and causes a carry to the sign bit ...

Page 166

... Gain bit for ADC channel 16 ADEXGAIN16 (0-2.0 V input range x10 (0-200 mV input range) 900841 166 Description ADCCNTL2 (ADDR 0x61 - R/W -Default Value: 0x00) ADCCNTL3 (ADDR 0x62 - R/W -Default Value: 0x00 22 Loop Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 167

... Turns on Y+ and Y- bias FETs, Refer to YPYMx FETS Off x1 = FETS On Turns on X- and Y+ bias FETs, Refer to XMYPx FETS Off x1 = FETS On Analog Integrated Circuit Device Data Freescale Semiconductor Description ADCSNSxH ( 31) ADCSNSxL ( 31) ADCADDRX ( 31) Figure 76 Figure 76 Figure 76 FUNCTIONAL DEVICE OPERATION ADC SUBSYSTEM 900841 167 ...

Page 168

... Positive for Charging and Negative for Discharging (Default Positive for Discharging and Negative for Charging Reserved Reserved 6 900841 168 CCADCHA (ADDR 0xC4 - R - 0x00) CCADCLA (ADDR 0xC5 - R - 0x00) Description voltage PWR CCCREG (ADDR 0x1DF - R/W -Default Value: 0x00) Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 169

... Yes GPIO6 Yes GPIO7 Yes Analog Integrated Circuit Device Data Freescale Semiconductor ONECLREG (ADDR 0x1E0 - R/W -Default Value: 0x1A) ONECHREG (ADDR 0x1E1 - R/W -Default Value: 0x00) RAWCCH (ADDR 0x1E2 - R/W - Default Value: 0x00 RAWCCL (ADDR 0x1E3 - R/W - Default Value: 0x00) GPIOS CMOS configured outputs, slew rate control will be specified in terms of output resistance at the GPOSW output pin ...

Page 170

... No No Yes Yes No No Yes Yes No No Yes Yes No No Figure 78. GPIO Module Structure OD Low OD Low OD Low OD Low CMOS Low CMOS Low CMOS Low CMOS Low CMOS Low CMOS Low CMOS Low CMOS Low Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 171

... See Table 114 for details. Analog Integrated Circuit Device Data Freescale Semiconductor Figure 79. GPOSW Module Structure GPOSWs are powered from GPOSWVCC. When configured as an open drain, the slew rate specification is the same, but will be interpreted, assuming an externally connected 100 kΩ ...

Page 172

... No Interrupt occurred or Masked Interrupt x1 = Interrupt occurred GPIO2 Interrupt Flag GPIINT2 Interrupt occurred or Masked Interrupt x1 = Interrupt occurred GPIO3 Interrupt Flag GPIINT3 Interrupt occurred or Masked Interrupt x1 = Interrupt occurred 900841 172 Description GPIOCNTLx ( GPIOINT (ADDR 0xE8 - R - Default Value: 0x00) (34) Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 173

... Low0 x1 = High (To voltage supplied on GPOVCC Pin) GPO1 Output Level GPO1 Low x1 = High (To voltage supplied on GPOVCC Pin) Analog Integrated Circuit Device Data Freescale Semiconductor Description GPOSWCTLx ( Ω max (PFET) Table 3 Description GPO (ADDR 0xF4 - R/W - Default Value: 0x00) FUNCTIONAL DEVICE OPERATION (34) Ω ...

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... RSVD REV1[2:0] RSVD REV2[2:0] RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD Initial Function VENDID1[2:0] 0x38 Chip1 ID VENDID2[2:0] 0x00 Chip2 ID RSVD RSVD RSVD 0x00 Chip3 ID RSVD RSVD RSVD 0x00 Chip4 ID Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... BKLTBRTL R/W LCD 0x2B SSTRING R/W RSVD RSVD 0x2C - - RSVD RSVD 0x2D - - RSVD RSVD 0x2E - - RSVD Analog Integrated Circuit Device Data Freescale Semiconductor AUX VRFAULT GPIO RTC MAUX MVRFAULT MGPIO MRTC RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD ...

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... VCC_PANEL_3.3 CTLVGP33[2:0] 0x24 VCC_GP_3.3 CTLVAUDIO[2:0] 0x00 VAUDIOCNT RSVD RSVD RSVD 0x00 Reserved RSVD RSVD RSVD 0x00 Reserved RSVD RSVD RSVD 0x00 Reserved 0x00 Backup memory 0x00 Backup memory 0x00 Backup memory 0x00 Backup memory Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... RSVD ADC 0x82 ADCSNS15H R GAIN15 ADC 0x83 ADCSNS15L R RSVD ADC 0x84 ADCSNS16H R GAIN16 ADC 0x85 ADCSNS16L R RSVD Analog Integrated Circuit Device Data Freescale Semiconductor SCRATCH[7:0] SCRATCH[7:0] SCRATCH[7:0] SCRATCH[7:0] RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD ...

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... ADC selector address ADSEL4[4:0] 0x00 ADC selector address ADSEL5[4:0] 0x00 ADC selector address ADSEL6[4:0] 0x00 ADC selector address ADSEL7[4:0] 0x00 ADC selector address ADSEL8[4:0] 0x00 ADC selector address ADSEL9[4:0] 0x00 ADC selector address Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... RSVD RSVD 0xCC - - RSVD RSVD 0xCD - - RSVD RSVD 0xCE - - RSVD RSVD 0xCF - - RSVD Analog Integrated Circuit Device Data Freescale Semiconductor YPYM10 XPXM10 YPYM11 XPXM11 YPYM12 XPXM12 YPYM13 XPXM13 YPYM14 XPXM14 YPYM15 XPXM15 YPYM16 XPXM16 YPYM17 XPXM17 YPYM18 XPXM18 YPYM19 XPXM19 ...

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... GPO0 0x00 GPO control RSVD RSVD RSVD 0x00 Reserved RSVD RSVD RSVD 0x00 Reserved RSVD RSVD RSVD 0x00 Reserved RSVD RSVD RSVD 0x00 Reserved - Analog Integrated Circuit Device Data Freescale Semiconductor Function Mask rate (CC) (CV) protection Limit (during discharge) Reserved by Customer ...

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... RSVD FSL 0x19C - - RSVD FSL 0x19D - - RSVD FSL 0x19E - - RSVD FSL 0x19F - - RSVD FSL 0x1A0 - - RSVD Analog Integrated Circuit Device Data Freescale Semiconductor VD3 RSVD RSVD RSVD RSVD VCEMAST VCEBCLIN VCEFSJS VCELONGF VCECLKFRQ[2:0] VCETXSLOT[1:0] ND STRMAST STRBCLIN RSVD RSVD EN V STRCLKFRQ[2:0] RSVD ...

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... SCH Enable Control CTLVOTG[2:0] 0x24 VOTG Control RSVD RSVD VYMXPADI 0x01 VYMXPA Discharge SDSCH Enable Control RSVD VCCTONT RSVD 0xAA Buck Turn On time control (DVS Clk) 0x7F VCC VID CONTROL 0x7F VNN VID CONTROL Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... H_5 FSL 0x1FC BUCK_TOP_LVS R/W BUCK_V21_ H_4 FSL 0x1FD BUCK_TOP_LVS R/W BUCK_VYM H_3 X3G_EN FSL 0x1FE BUCK_TOP_LVS R/W BUCK_VDD H_2 Q_EN Analog Integrated Circuit Device Data Freescale Semiconductor RSVD RSVD RSVD V15TONT VYMX3GF V33FAULT V15FAULT V21FAULT T AULT VPNL18FA VCC180FA VCCAFAU VBGFAULT T ...

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... LPS3314-102ML Coilcraft 1 FDMA1032CZ Fairchild 1 GRM188R60J106ME47D Murata 2 AMK107BJ226MA-T Taiyo Yuden 1 XPL2010-501ML Coilcraft 1 GRM188R60J106ME47D Murata 1 AMK107BJ226MA-T Taiyo Yuden 1 XPL2010-501ML Coilcraft 1 GRM188R60J106ME47D Murata 2 AMK107BJ226MA-T Taiyo Yuden 1 XPL2010-501ML Coilcraft 1 GRM188R60J106ME47D Murata 1 AMK107BJ226MA-T Taiyo Yuden 1 XPL2010-501ML Coilcraft 1 GRM188R60J106ME47D Murata Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Coccpaoac 0402 1.0 μ F Coccpddr 0402 2.2 μ F Coaon 0402 Analog Integrated Circuit Device Data Freescale Semiconductor Description Ceramic Capacitor X5R SCHOTTKY 1 P-FET Switch VOTG - 5 0.35 A Non-Sync Boost Ceramic Capacitor, 6.3 V, X5R Ceramic Capacitor, 6.3 V, X5R SCHOTTKY 30 V 0.5 A P-FET Switch Ceramic Capacitor, 6 ...

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... ERJ-1GEJ222C Panasonic 1 JMK063BJ224MP-F Taiyo Yuden 1 JMK063BJ224MP-F Taiyo Yuden 1 JMK063BJ224MP-F Taiyo Yuden 1 GRM033R60J104KE19D Murata 1 GRM033R60J104KE19D Murata 1 GRM155R60J105ME19D Murata 1 GRM155R60J225ME15D Murata 1 GRM155R60J105ME19D Murata 1 GRM033R60J104KE19D Murata 1 GRM033R60J104KE19D Murata 1 GRM155R60J105ME19D Murata 1 NX2016AB-26MHZ SB1 NDK 1 GRM0335C1E150JD01D Murata 1 GRM0335C1E150JD01D Murata Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Freescale does not assume liability, endorse, or warrant components from external manufacturers that are referenced in circuit drawings or tables. While Freescale offers component recommendations in this configuration the customer’s responsibility to validate their application. Analog Integrated Circuit Device Data Freescale Semiconductor Description Switching Charger ...

Page 188

... PACKAGING PACKAGE DIMENSIONS For the most current package revision, visit www.freescale.com and perform a keyword search using the “98A” listed below. 900841 188 PACKAGING PACKAGE DIMENSIONS VK SUFFIX 338-PIN 98ASA10841D REVISION 0 Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... Analog Integrated Circuit Device Data Freescale Semiconductor VK SUFFIX 338-PIN 98ASA10841D REVISION 0 PACKAGING PACKAGE DIMENSIONS 900841 189 ...

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... Freescale’s preferred material for the corner glue application is the Loctite 3128 board level adhesive applied at a 0° or 45° dispense angle in a continuous motion and with the fillet length extended to a minimum of 3 ball rows and columns at each corner. Analog Integrated Circuit Device Data Freescale Semiconductor ...

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... REVISION DATE DESCRIPTION OF CHANGES 2/2011 • Initial release 2.0 Analog Integrated Circuit Device Data Freescale Semiconductor REVISION HISTORY REVISION HISTORY 900841 191 ...

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... Freescale Semiconductor was negligent regarding the design or manufacture of the part. Freescale™ and the Freescale logo are trademarks of Freescale Semiconductor, Inc ...