MC13892JVL Freescale Semiconductor, MC13892JVL Datasheet

Page 1

... Charger LED Li Ion Li Ion Battery Battery Freescale Semiconductor, Inc. reserves the right to change the detail specifications, as may be required, to permit improvements in the design of its products. © Freescale Semiconductor, Inc., 2010 - 2011. All rights reserved. 139-PIN 7X7MM BGA See Device Variation Table on Page 2. ...

Page 2

... MC13892BJVL Notes 1. For Tape and Reel product, add “/R2” suffix to the device number. 2. Recommended for all new designs 3. Not recommended for new designs 4. Backward compatable replacement part for MC13892VK, MC13892JVK, MC13892VL and MC13892JVL 13892 2 DEVICE VARIATIONS Temperature Errata Doc # Range ( -40 to +85 ° ...

Page 3

... LICELL Switch Internal Osc Li Cell Charger 32 KHz Crystal Osc Figure 2. 13892 Simplified Internal Block Diagram Analog Integrated Circuit Device Data Freescale Semiconductor INTERNAL BLOCK DIAGRAM Tri-Color Backlight LED Drive LED Drive Die Temp & To Interrupt Thermal Warning Section Detection Package Pin Legend ...

Page 4

... GN DSW 1 Control Logic Charger R ES ETBMCU RESETB S W1OUT RTC GPO 4 SW 1IN Grounds STA NDB YSEC SW 2IN USB TSX2 S W2OUT ADC VVID DSW 2 SPI/I2C TSY2 V VID EO No Connect A DIN7 TSY1 TS REF VGE N1 TSREF TS REF Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 5

... L SW4OUT CS GNDSPI GNDSUB GNDSUB M CLK VINGEN3DRV CLK32KMCU CLK32K VSRTC N VGEN3 MOSI VGEN2 GNDREG3 XTAL2 P MISO PWGTDRV1 VGEN2DRV GNDSUB Analog Integrated Circuit Device Data Freescale Semiconductor GNDSUB NC MODE VCORE BATT CHRGRAW UID DVS1 REFCORE GNDCORE CHRGSE1B BP LEDKP LEDAD PUMS2 VCOREDIG LICELL BATTFET ...

Page 6

... Regulated supply output for the IC digital core circuitry 1. Application supply point 2. Input supply to the IC core circuitry 3. Application supply voltage sense Driver output for charger path FETs M1 point Input regulator processor PLL Drive output regulated SD card Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 7

... F1 G1, G2 GNDSW3 F2 F2 VBUSEN F4 G3 SW3FB F5 C7 LEDAD F6 A6, B3, B4, D3, GNDSUB1 D4, E4, E5, E6 Analog Integrated Circuit Device Data Freescale Semiconductor Rating Pin Function Formal Name (V) 3.6 Output USB Supply 3.6 Output SD Card Supply 3.6 Input Switcher Boost Feedback 28 Input LED Driver 3 ...

Page 8

... Ground for SPI interface Ground for regulators 3 Non critical signal ground and thermal heat sink Non critical signal ground and thermal heat sink Non critical signal ground and thermal heat sink Ground for control logic Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 9

... CS L12 L11 TSY2 L13 L13 VVIDEO M1, N1 VGEN3 M2 M1 CLK M3 N3 VGEN2 Analog Integrated Circuit Device Data Freescale Semiconductor Rating Pin Function Formal Name (V) 3.6 Input Switcher 1 Feedback 3.6 Input Secondary Standby Signal 5.5 Input Switcher 2 Input 5.5 Power Switcher 4 Input 3 ...

Page 10

... Input VGEN3 regulator 2. Drive VGEN3 output regulator Drive output GEN2 regulator 32.768 kHz oscillator crystal connection 2 32.768 kHz oscillator crystal connection 1 Input regulator VAUDIO Output regulator for audio Input regulator high voltage IO Input GEN1 regulator Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 11

... Table 4. Dissipation Ratings Rating Parameter Junction to Ambient Natural Convection Junction to Ambient Natural Convection Junction to Ambient (@200 ft/min) Junction to Ambient (@200 ft/min) Junction to Board Junction to Case Junction to Package Top Analog Integrated Circuit Device Data Freescale Semiconductor MAXIMUM RATINGS Symbol V CHRGR V MODE V LEDMD, V ...

Page 12

... SRTC C SRTC Min Typ Max Unit µA - 3.00 6.00 µ µA - 3.0 6.0 µA - 230 295 µA - 459 1500 V 1.2 - 4.65 V 1 0.2 V SPIV -0.2 - SPIV -0 SRTC SRTC V 1.8 - 3.6 UVDET - 4. µA - 1.0 - µF Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 13

... Application needs to provide current limit protection circuitry either in battery or as pre- regulated supply to BP. Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. ...

Page 14

... SW1 R WSW C OSW234 C OSW1 ESR SW VBST V BSTPP VBSTLOR VBSTLIR Min Typ Max Unit -20% 2.2 +20% µH -30% 1.5 +30% µ 0.16 W -35% 10 +35% µF -35% 2x22 +35% µF 5 mΩ 1.0 4.7 - µF V Nom-5% 5.0 Nom+5% mVpp - - 120 mV/ 0 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 15

... Applications of SWBST should take into account impact of tolerance and voltage derating on the bypass capacitor at the output level. Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. ...

Page 16

... V +0.25 - 4.65 V NOM 0 - 150 mA 0.65 2.2 - µ 0.1 V – NOM NOM NOM - - 0.25 mV/ 5.0 8 +20 MAX V UVDET - 4.65 1.75 SW4 = 1.8 4.65 2.15 2.2 4. µF 0. – 0. 0.05 NOM NOM NOM mV/ 0.35 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 17

... V < V < for any IL < IL < IL INMIN IN INMAX MIN Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. Symbol VPLLLIR, VDIGLIR MAX V INMAX INIOHI ...

Page 18

... V +3% NOM NOM NOM +0.25 - 4.65 NOM UVDET - 4.65 UVDET - 4.65 2.15 2.20 4. 250 1.1 2.2 - µF mΩ 100 V V – NOM NOM NOM mV/ 0. 5.0 8 +20 MAX +3% NOM NOM NOM 0 - 3.0 mA Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 19

... Line Regulation V < V < for any IL < IL < IL INMIN IN INMAX MIN Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. Symbol V INMAX INUSB I USB C ...

Page 20

... W (24) (24) (25) V 4.4 5.0 5.25 V UVDET < - 4.65 V +0.25 NOM 2.15 2.2 4. 200 V UVDET - 4.65 1.1 2.2 +35% µF mΩ 100 V V – 0. 0.05 NOM NOM NOM V – NOM NOM NOM mV/ 0. 5.0 8 +20 MAX Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 21

... VGEN2 = 000 to 010 VGEN2 = 011 to 111 Current Load Range MINLP MAXLP Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. Symbol , IL < IL < IL VGEN1LO ...

Page 22

... NOM UVDET - 4. 200 µF 0.65 2.2 - 1.1 2.2 - mΩ 100 V V – NOM NOM NOM mV/ 0. 5.0 9 +20 MAX +3% NOM NOM NOM 0 1.0 3.0 mA BATT - 17 V MIN % -1.5 - 1.5 -3.0 - 1.5 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 23

... Excludes spread and tolerance due to board and 100 mOhm sense resistor tolerances. 27. An additional derating of 35% is allowed. 28. ADIN5, 6 and 7 inputs must not exceed BP voltage. Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V unless otherwise noted. Typical values noted reflect A 25 °C under nominal conditions, unless otherwise noted. Symbol ΔI ...

Page 24

... A 25 °C under nominal conditions, unless otherwise noted. Symbol (30) Min Typ Max Unit 1.0 LSB 5.0 LSB 1.0 LSB KΩ 5.0 30 VCORE V 100 1000 W 180 1200 W 3.0 5.5 µ -3% 1.20 + 0.1 W 0.65 2.2 +35% µF Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 25

... MHz Turn-on Time Enable to 90% of end value INMIN Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V, unless otherwise noted. Typical A 25 °C under nominal conditions unless otherwise noted Symbol t RTCST ...

Page 26

... VPLLPSSR VPLLON VPLLt INMAX VPLLt OFF , INMAX Min Typ Max Unit ms 0 1.0 2 5.0 8.0 µ 100 % - 1.0 2 dBV/√Hz - -114 - - -124 - - -129 - 1 1.0 2 5.0 8 dB/dec - 2.5 - µV/√Hz µ 100 ms 0 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 27

... INMIN INMAX VCAM = 01, 10, 11 VCAM = 00 Transient Line Response - See Transient Waveforms on page 75 MAX Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V, unless otherwise noted. Typical A 25 °C under nominal conditions unless otherwise noted Symbol VPLLTLOR, VDIGTLOR VPLLTLIR, VDIGTLIR ...

Page 28

... IN INMIN VUSBPSSR VUSBON MAX VUSB2PSSR VUSB2ON Min Typ Max Unit µ 100 % - 1.0 2 dBV/√Hz - -115 - - -126 - - -132 - - - 1 1.0 2 5.0 8.0 µ 100 % - 1.0 2 µV/√ dB/dec - 0.2 - µV/√Hz Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 29

... See Transient Waveforms on page 84 From low power to active and from active to low power INMIN INMAX MAXLP Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V, unless otherwise noted. Typical A 25 °C under nominal conditions unless otherwise noted Symbol VUSB2t INMAX ...

Page 30

... VGEN3ON VGEN3t INMAX VGEN3t OFF , INMAX VGEN3TLOR ) VGEN3TLIR Min Typ Max Unit dBV/√Hz - -115 - - -126 - - -132 - 1.0 0 1.0 3 5.0 8.0 µ 100 % - 1.0 2 dB/dec - 1.0 - µV/√ 1.0 ms 0.1 - 5.0 - 1.0 2 5.0 8.0 mV Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 31

... Turn On Delay If Switcher PLL was active If Switcher PLL was inactive TOUCH SCREEN Turn-on Time - 90% of output Analog Integrated Circuit Device Data Freescale Semiconductor ≤ 85 °C, GND = 0 V, unless otherwise noted. Typical A 25 °C under nominal conditions unless otherwise noted Symbol VGEN3tMOD ...

Page 32

... BATTISNS. The coulomb counter monitors the current flowing in/ out of the battery by integrating the voltage drop over the BATTISNCC and the BATT pin. 13892 32 FUNCTIONAL DESCRIPTION FUNCTIONAL PIN DESCRIPTION Control). Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 33

... Off mode is activated, the power gate drive circuitry will be disabled, turning off the NMOS power gate switches to isolate the maintained supply domains from any peripheral loading. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DESCRIPTION FUNCTIONAL PIN DESCRIPTION F output µ ...

Page 34

... Power supply for gate driver for the internal power NMOS that charges SWBST inductor. It must be connected to BP. SWBSTFB Switcher BST feedback. When SWBST is configured to supply the UVBUS pin in OTG mode the feedback will be switched to sense the UVBUS pin instead of the SWBSTFB pin. GNDSWBST Ground for switcher BST. 13892 34 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 35

... Output regulator for the camera module. When using an external PNP device, this pin must be connected to its collector. VSDDRV Drive output for the VSD external PNP transistor. VSD Output regulator for multi-media cards such as micro SD, RS-MMC. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DESCRIPTION FUNCTIONAL PIN DESCRIPTION 13892 35 ...

Page 36

... General purpose output 1. Intended to be used for battery thermistor biasing. In this case, connect a 10 KΩ resistor from GPO1 to ADIN5, and one from ADIN5 to GND. GPO2 General purpose output 2. GPO3 General purpose output 3. GPO4 General purpose output 4. It can be configured for a muxed connection into Channel 7 of the GP ADC. 13892 36 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 37

... Watchdog phase. This allows the system to power up without concern of the required Standby polarities, since software can make adjustments accordingly, as soon running. INT Interrupt to processor. Unmasked interrupt events are signaled to the processor by driving the INT pin high. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DESCRIPTION FUNCTIONAL PIN DESCRIPTION (See 13892 ...

Page 38

... Ground for SPI interface. 13892 38 MODE Normal Operation USB Low Power Boot Allowed Test Mode mode; the pin is not used mode other than for configuration interface, a configuration protocol mandates that the 2 C bus clock). Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 39

... ADC channels and 7. In interrupt mode, a voltage is applied to the X-plate (TSX2) via a weak current source to VCORE, while the Y-plate is connected to ground (TSY1). Analog Integrated Circuit Device Data Freescale Semiconductor Note: The TS[xy] [12] inputs must not exceed BP or VCORE. FUNCTIONAL DESCRIPTION ...

Page 40

... TSREF can be used as a low current general purpose regulator can be kept disabled and the bypass capacitor omitted. ADTRIG ADC trigger input. A rising edge on this pin will start an ADC conversion. GNDADC Ground for circuitry. THERMAL GROUNDS GNDSUB1-9 General grounds and thermal heat sinks. 13892 40 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 41

... Identification 23 8 Unused 24 9 ACC ACC Unused 27 Analog Integrated Circuit Device Data Freescale Semiconductor PROGRAMMABILITY SPI Mode Functionality (31) , Chip Select Configuration SCL: I SDA: Bi-directional serial data line A0 Address Selection 2 C interface result, a configuration protocol mandates that Register Register Unused 32 Regulator Mode 0 ...

Page 42

... Figure 5. SPI Transfer Protocol Single Read/Write Access 13892 42 Register Register Switchers 4 44 ADC 1 Switchers 5 45 ADC 2 Regulator Setting 0 46 ADC 3 Regulator Setting 1 47 ADC4 Table 9. Description Description Description Register 60 Test 1 61 Test 2 62 Test 3 63 Test 4 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 43

... SPIVCC pin by connecting it to the desired supply. This would typically be tied to SW4 programmed for 1.80 V. The strength of the MISO driver is programmable through the SPIDRV[1:0] bits. Analog Integrated Circuit Device Data Freescale Semiconductor Figure 7. SPI Interface Timing Diagram FUNCTIONAL DEVICE OPERATION ...

Page 44

... SPIVCC Operating Range pF, SPIVCC = 1.8 V SPIDRV[1: (default) MISO Rise and Fall Time SPIDRV[1: SPIDRV[1: SPIDRV[1: 13892 44 Description Condition Min 0 0.7*SPIVCC 0 SPIVCC-0.2 1. min (ns 4.0 4.0 4.0 4.0 4.0 4.0 Typ Max Units - 0.3*SPIVCC V - SPIVCC+0 0 SPIVCC High Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 45

... Failure to complete a 3 byte write sequence will abort the I could be due to a premature STOP command from the master, for example. I Analog Integrated Circuit Device Data Freescale Semiconductor INTERFACE 7) the interface may be used to access the complete register map previously 2 C slave device, not as a host ...

Page 46

... In the following examples, the device is shown always responding with an ACK to transmissions from the host any time a NAK is received, the host should terminate the current transaction and retry the transaction. 13892 46 2 Figure Byte Write Example 2 Figure Byte Read Example Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 47

... CHGSHORTM CHGFAULTI CHGFAULTM CHGCURRI CHGCURRM CCCVI CCCVM BPONI BPONM LOBATLI LOBATLM BVALIDI BVALIDM Analog Integrated Circuit Device Data Freescale Semiconductor Sense Purpose ADC has finished requested - conversions ADCBIS has finished requested - conversions - Touch screen wake-up CHGDETS Charger detection sense detected CHGENS ...

Page 48

... L2H 30 ms page 55 L2H 0 page 55 L2H 0 page 55 L2H 0 page 55 L2H 0 page 55 L2H 0 page 55 Dual 0 page 50 L2H 0 page 50 Dual 30 ms page 71 Dual 30 ms page 71 Dual 1.0 ms page 88 Power Control System for details. Table 13. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 49

... The 13892 has a small general purpose embedded memory of 2 times 24 bits to store critical data. The data is maintained when the device is turned off and when in a power cut. The contents are only reset when a RTC reset occurs, see Generation and Real Time Clock. Analog Integrated Circuit Device Data Freescale Semiconductor Description 00 = MODE grounded 10 = MODE to VCOREDIG 11 = MODE to VCORE ...

Page 50

... The electrical characteristics of the 32 kHz Crystal oscillator are given in the table below, taking into account the above crystal characteristics 13892 50 32.768 kHz +/-30 ppm 2 -0.038 ppm /C 80 kOhm 1.0 μW 0.25 to 0.5 μW 9 ppm/year Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 51

... MC13892, so that effect a parallel path for the power key. The MC13892 will not be able to discern the turn on event from a normal power key initiated turn on, but the processor should have the knowledge, since the RTC initiated turn on is generated locally. Analog Integrated Circuit Device Data Freescale Semiconductor CLOCK GENERATION AND REAL TIME CLOCK Condition Min 1 ...

Page 52

... DAY counter. The DAY counter can count up to 32767 days. The 1.0 Hz time tick can be used to generate a 1HZI interrupt if unmasked. 13892 52 Figure 10. SRTC block diagram Condition < V < V INMIN IN INMAX < IL < IL MIN MAX Min Typ Max Units 1.8 - 3.6 UVDET - 4. 1.0 - 1.150 1.20 1.25 Analog Integrated Circuit Device Data Freescale Semiconductor V V μA μF V ...

Page 53

... Because of the low RTC consumption, RTC accuracy can be maintained through long periods of the application being shut down, even after the main battery has discharged. However noted that the calibration can only be as good as the RTCCAL Analog Integrated Circuit Device Data Freescale Semiconductor CLOCK GENERATION AND REAL TIME CLOCK Correction in Counts per 32768 ...

Page 54

... LICELL Bypass Capacitor as coin cell replacement 13892 54 VCOIN[2:0] Output Voltage 000 2.50 001 2.70 010 2.80 011 2.90 100 3.00 101 3.10 110 3.20 111 3.30 Typ Units 100 mV μA 60 μ 100 nF μF 4.7 100 nF μF 4.7 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 55

... SPI bit PCCOUNT[3:0] SPI bits PCMAXCNT[3:0] SPI bits PCUTEXPB SPI bit Analog Integrated Circuit Device Data Freescale Semiconductor POWER CONTROL SYSTEM Table 22 gives a listing of the principal elements of this interface. Function Power on/off 1 button connection Power on/off 2 button connection Power on/off 3 button connection ...

Page 56

... POWER CONTROL STATE MACHINE Figure 11 shows the flow of the power control state machine. This diagram serves as the basis for the description in the remainder of this chapter. Figure 11. Power Control State Machine Flow Diagram 13892 56 OPERATING MODES Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 57

... To ensure that SW1, SW2, and SW3 shut off in Memory Hold, appropriate mode settings should be used such as SW1MHMODE = SW2MHMODE = SW3MHMODE = 0 (refer to the mode control description later in this chapter). Since SW4 should be powered in PFM mode, SW4MHMODE could be set to 1. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION OPERATING MODES 13892 ...

Page 58

... PCUTEXB bit by setting This transition is referred “unsuccessful” PCUT. Upon re-application of power before expiration (an “successful PCUT”, defined as BP first rising above the UVDET threshold and then above the BPON threshold before the PCUT timer expires), a Cold Start is engaged. 13892 58 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 59

... WDIRESETI interrupt and PCUTEXPB = 1. The application may then determine that an inconspicuous restart without showing may be more appropriate than launching into the welcoming routine. A PCUT event does not trip the WDIRESETI bit. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION OPERATING MODES 13892 ...

Page 60

... Falling Edge INT Debounce (ms) 0 31.25 31.25 31.25 125 125 750 750 USEROFFCLK Clock Output CLK32KMCU X Disabled X Enabled X Disabled X Enabled X Enabled 0 Disabled X Enabled 1 Table 24. To Rising Edge INT Debounce (ms) 31.25 31.25 31.25 31.25 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 61

... The different timers as used by the state machine are in A synchronization error one clock period may occur with respect to the occurrence of an asynchronous event. The duration listed below is therefore the effective minimum time period. Analog Integrated Circuit Device Data Freescale Semiconductor Battery Interface and Control. Clock Generation and Real Time Table 25 ...

Page 62

... The power up defaults Table 26 shows the initial setup for the voltage level of the switchers and regulators, and whether they get enabled. 13892 62 Duration 4 128 ms Programmable seconds in 31.25 ms steps Figure 12. Figure 12. Power Up Timing Diagram Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 63

... SWBST = 5.0 V powers up and does VUSB regardless of 5.0 V present on UVBUS. By default VUSB will be supplied by SWBST. The power up sequence is shown in Table Once VCOREDIG is activated (i.e., at the first-time power application), it will be continuously powered as long as a valid coin cell is present. Analog Integrated Circuit Device Data Freescale Semiconductor 37/51 37/51 37/51 Open VCOREDIG ...

Page 64

... BPONS LOBATHS SW2 VGEN2 SW4 VIOHI, VSD (44) SWBST, VUSB SW1 VPLL SW3 VDIG VUSB2 Rising Edge BPON 3.0 3.2 3.1 3.2 3.3 3.2 3.4 3.2 LOBATLS Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 65

... Each regulator and GPO has an associated SPI bit for this. When the bit is not set, STANDBY influence. The actual operating mode of the regulators as a function of STANDBY is not reflected through the SPI. In other words, the SPI will read back what is programmed, not the actual state. Analog Integrated Circuit Device Data Freescale Semiconductor STANDBYSEC (Pin) STANDBYSECINV (SPI bit) x ...

Page 66

... PWM PWM NA Auto PWM PWMPS PWMPS Auto PWM Regulator Vx Off On Low Power On Off Low Power Regulator Vx Off On On Off (51) Standby Mode Off Off Off Off Off PWM Auto NA Auto PWMPS PWMPS Auto PFM PFM Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 67

... PWGTDRV1 is provided for power gating peripheral loads sharing the processor core supply domain(s) SW1, and/or SW2, and/ or SW3. In addition, PWGTDRV2 is provided support to power gate peripheral loads on the SW4 supply domain. Analog Integrated Circuit Device Data Freescale Semiconductor (51) Normal mode Standby Mode ...

Page 68

... NMOS and is normally pulled charge pumped voltage (~5.0 V). During Memory Hold or User Off, PWGTDRV2 will go low to turn off the NMOS switch and isolate memory on the SW4 power domain. 13892 68 Figure 13. Power Gating Diagram Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 69

... Table 38. Table 38. Power Gate Drive State Control Off Cold Start Warm Start Watchdog, On, User Off Wait User Off, Memory Hold, Internal Memory Hold Power Cut Analog Integrated Circuit Device Data Freescale Semiconductor Figure 14. Memory Hold Circuit Condition Min 5 -250 mV - OUT OUTMIN < ...

Page 70

... Battery Interface and Control for more information. ADC Subsystem. Condition Output VCORE Impedance to VCORE ADC Subsystem (active high polarities assumed). Low High High Low Min Typ Max Units 200 500 Ohm for GP ADC details. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 71

... VDIG Low voltage digital (DPLL, GPS) VSD SD Card, external PNP VUSB2 External USB PHY supply VVIDEO TV DAC supply, external PNP VAUDIO Audio supply Analog Integrated Circuit Device Data Freescale Semiconductor SUPPLIES Battery Power Audio Voltage & Current Control CC Charge RTC, BP MEMA/B ...

Page 72

... Figure 16 shows a high level block diagram of the buck switchers. 13892 72 Output Voltage (in V) 2.5/2.6/2.75/3.0 2.5/2.6/2.75/3.0 1.2/1.5/2.775/3.15 1.2/1.5/1.6/1.8/2.7/2.8/3.0/3.15 1.8/2.9 1.8/2.9 3.3 Figure 16. Buck Switcher Architecture Load Capability (in mA) 65 250 200 350 50 250 100 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 73

... PLL clock signal is not needed elsewhere in the system. The clocking system provides nearly instantaneously, a high frequency clock to the switchers when the switchers are activated or exit the PFM mode for PWM mode. The PLL can be configured for continuous operation by setting the SPI bit PLLEN = 1. Analog Integrated Circuit Device Data Freescale Semiconductor for details. Table 44. ...

Page 74

... SWx Output , SWxHI = 1 (Volts) 1.100 1.125 1.150 1.175 1.200 1.225 1.250 1.275 1.300 1.325 1.350 1.375 1.400 1.425 1.450 1.475 1.500 1.525 1.550 1.575 1.600 1.625 1.650 1.675 1.700 1.725 1.750 1.775 1.800 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 75

... Ground PUMS2 Open SW1HI 0 0 SW2HI SW3HI 0 SW4HI 1 Note that the following efficiency curves were measured with the MC13892 in a socket. Analog Integrated Circuit Device Data Freescale Semiconductor SWx Output, SWxHI = 0 (Volts) 1.325 1.350 1.375 Open VCOREDIG VCORE Open Open Open 0 0 ...

Page 76

... Il oad (m A) SW4 PFM mode Efficiency Vout = 1 100 Il oad (m A) Figure 17. Buck Switcher PFM Efficiency Vin = 2, 800 V Vin = 3, 600 V Vin = 4, 650 V Vin = 2, 800 V Vin = 3, 600 V Vin = 4, 650 V Vin = 2, 800 V Vin = 3, 600 V Vin = 4, 650 V Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 77

... ulse Ski pp ing mode Efficien cy V out = 1.800 V 100 % Ilo Figure 18. Buck Switcher PWM (No Pulse Skipping) Efficiency Analog Integrated Circuit Device Data Freescale Semiconductor kipp ing mode Efficien cy V out = 1.800 V 100 % Vin = 3 , Vin = 3 , Vin = 4 , 400 kipp ing mode Efficien cy V out = 1.250 V ...

Page 78

... Vin = 3 , Vin = 4 , 400 (60) DVSx Pin Set Point Selected by 0 SWx[4:0] 1 SWxDVS[4:0] X SWxSTBY[4:0] Vin = 3 Vin = 3 Vin = 4 Vin = 3, 000 V Vin = 3, 600 V Vin = 4, 650 V 350 600 650 900 Ilo Vin = 3 Vin = 3 Vin = 4 450 700 750 8 00 850 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 79

... The modified set point bits are then immediately passed to the switching regulator, which would then do a DVS step in the appropriate direction. The SPI bits containing Normal mode programming are not directly altered. Analog Integrated Circuit Device Data Freescale Semiconductor SWxDVSSPEED[1:0] Function 25 mV step each 2.0 μ ...

Page 80

... SID Panic Mode Example DVS step all the way back to 1.250V DVS (SW1[4:0] programmed value = 1.250V Panic 2 3 SPICLK shut down when not used DVS Down 1.250 1.225 Down 1 Figure 22, Panic Mode recovery is Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 81

... An external fly back Schottky diode, inductor and capacitor are required. Enabling of SWBST is accomplished through the SWBSTEN SPI control bit. Table 52. Switch Mode Supply SWBST Control Function Summary Parameter SWBSTEN Analog Integrated Circuit Device Data Freescale Semiconductor Figure 23. Boost Switcher Architecture Value Function 0 SWBST OFF ...

Page 82

... Bypass Capacitor (61) Output voltage Absolute Accuracy Temperature Drift Bypass Capacitor 300 Target 1.5 V 1.2 V 2.2 μF typ (0.65 μF derated) 2.775 2.2 μF typ (0.65 μF derated) 1.20 V 0.50% 0.25% 100 nF typ (65 nF derated) Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 83

... The transient load and line response are specified with the waveforms as depicted in response refers to the overshoot only, excluding the DC shift itself. The transient line response refers to the sum of both overshoot and DC shift. This is also valid for the mode transition response. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION SUPPLIES Figure 25 ...

Page 84

... The primary applications of these power supplies are for audio, and TV-DAC. However these supplies could also be used for other peripherals if one of these functions is not required. Low Power modes and programmable Standby options can be used to optimize power efficiency during Deep Sleep modes. 13892 84 Figure 25. Transient Waveforms Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 85

... The camera module is supplied by the regulator VCAM. This allows powering the entire module independent of the rest of other parts of the system, as well as to select from a number of VCAM output levels for camera vendor flexibility. In applications Analog Integrated Circuit Device Data Freescale Semiconductor Value Function ...

Page 86

... Output Voltage ILoad max 1.80 V 250 mA 2.00 V 250 mA 2.60 V 250 mA 2.70 V 250 mA 2.80 V 250 mA 2.90 V 250 mA 3.00 V 250 mA 3.15 V 250 mA ILoad max VCAMCONFIG=1 External PNP 250 mA 250 mA 250 mA 250 mA Input Supply BP or External Switcher Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 87

... A short circuit condition will shut down the VGEN3 regulator and generate an interrupt for SCPI. Table 60. VGEN3 Voltage Control VGEN3 bit Output Voltage 0 1 Analog Integrated Circuit Device Data Freescale Semiconductor Function Function output = 1.20 V output = 1.50 V output = 1.60 V output = 1.80 V output = 2.70 V output = 2 ...

Page 88

... For details see the related sections in this chapter and the SPI bit summary in SPI 13892 88 Figure 26. Charge Path Block Diagram DSON Bitmap. and small footprint. Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 89

... BATT at 3.4 V, used to allow turn on when charging from USB, closes M3 when in serial path BATTCYCL BPSNS at 98% of charger voltage setting, used to restart charging, used by CCCVI Analog Integrated Circuit Device Data Freescale Semiconductor Description 1 = BATTFET controlled by the state of the FETCTRL bit 1 = BATTFET is driven low if FETOVRD is set ...

Page 90

... Advised setting for USB charging with 400 PHY active 480 560 Standalone Charging Default 640 720 800 880 960 1040 1200 High Current Charger 1600 High Current Charger Fully On – M3 Externally Powered Open Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 91

... When the maximum voltage of the IC is exceeded, damage will occur to the IC and the state of M1 and M2 cannot be guaranteed. If the user wants to protect against these failure conditions, additional protection will be required. Analog Integrated Circuit Device Data Freescale Semiconductor Condition CHRGRAW VCHRG[2:0] = 011 Charge current ° ...

Page 92

... Power Limit (mW) 600 01 800 10 1000 11 1200 Condition the power set by PLIM[1:0] Upon charging enabling Condition Min 500 Current from Accessory Min Typ Max Units - - 500 - ms - 1500 - Typ Max Units - - 1840 mA μs - 100 - - CHGCURR - mA Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 93

... Table 72. Charger Detectors main characteristics Parameter BATTMIN Threshold At BATT BATTON Threshold At BATT BATTCYCL Threshold At BPSNS relative to VCHRG[2:0] Charger Presence CHRGRAW-BPSNS Analog Integrated Circuit Device Data Freescale Semiconductor BATT Trickle Charge Current (mA Condition BATTISNS BP-BATTISNS BP-BATTISNS Charger Presence CHGCURR Comparator Comparator ...

Page 94

... Corresponding Resistor Values Rpu Condition Min CHRGLED = 2 CHRGLED = 0.7 V 5.0 CHRGLEDEN CHRGLED 0 (default) Auto 1 On Typ Max Units 100 - ms 1 100 - Corresponding Temperature (in °C) * B=3200 B=3500 B=3900 -3.0 0 +2.0 +49 +46 +44 Typ Max Units - 8 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 95

... When in the serial path and upon initialization of the charger circuitry, and it appears BP stays below BPON, the application will not be powered up, and the same charging scheme is followed as for single path. Analog Integrated Circuit Device Data Freescale Semiconductor Condition Min Typ ...

Page 96

... BPON) while M3 is open, the charger control logic will immediately close M3 under the condition that BATT > BATTMIN. 13892 96 Condition Min - - - CHGFAULTS[1: Analog Integrated Circuit Device Data Typ Max Units 120 - min 270 - min 60 - min CHGFAULTI Not generated Rising edge Rising edge Rising edge Rising edge Dual edge Freescale Semiconductor ...

Page 97

... LPBS reset to 0. (or any subsequent failure: WDI = 0). Also if RESETB transitions to 0 while in LPB (i.e loading misbehaves and causes a UVDET for example), the system will transition to USB trickle recover, LPBS reset to 0. Analog Integrated Circuit Device Data Freescale Semiconductor Mode Ground Normal Operation ...

Page 98

... PWRONx) to turn it back on. 13892 98 State for temperature State for temperature back in range out of range ICin “On” State Internal precharge Low Power Boot Precharge Initialization IC in “Off” State Initialization Initialization Initialization Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 99

... Outside of the conversions the buffer is automatically disabled. The buffer will add some offset, but will not impact INL and DNL numbers except for input voltages close to zero. Analog Integrated Circuit Device Data Freescale Semiconductor ADC SUBSYSTEM gives an overview of the attributes of the channels. ...

Page 100

... SPI programming or readout results will not. To restart a new ADC conversion after a reset, all ADC SPI control settings should therefore be reprogrammed. 13892 100 Condition No bypass capacitor at input Bypass capacitor at input 10 nF BUFFEN = 1 BUFFEN = 1 Min Typ Max Units - - 5.0 kOhm - - 30 kOhm -5 - 5.0 mV 0.02 - 2.4 V Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 101

... Analog Integrated Circuit Device Data Freescale Semiconductor Voltage at Voltage at input ADC in V BATT 111 111 111 2.400 1 000 010 100 1.250 0 000 000 000 ...

Page 102

... CHRGISNS – BPSNS in mV 100 mOhm in mA 300.0 0.586 0 -0.586 -300.0 Typ Max Units 2 mOhm in V 4.800 2.500 0.000 Voltage at CHGRAW in V, CHRGRAWDIV = 1 10.000 0.000 Current Flow 3000 To application/battery 5.865 To application/battery 0 - 5.865 To charger connection 3000 To charger connection Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 103

... Also on channel 7, the die temperature can be read out. The relation between the read out code and temperature is given in Table 93. Analog Integrated Circuit Device Data Freescale Semiconductor Battery Thermistor Check Circuitry. Condition Min - Clock Generation and Real Time ...

Page 104

... Die temperature 1 UID pin voltage, Scaling = General purpose input ADIN7B, Scaling = 1 1 General purpose input ADIN7B, Scaling = 27. This allows two independent pieces of software to perform ADC requests. Figure 27. ADC Request Handling Maximum Unit - Decimal - °C/LSB 5.0 % Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 105

... To avoid that the ADTRIG input inadvertently triggers a conversion, the ADTRIGIGN bit can be set which will ignore any transition on the ADTRIG pin. The ADC completely ignores either ADTRIG or ASC pulses while ADEN is low. When reading conversion results preferable to make ADEN = 0. Analog Integrated Circuit Device Data Freescale Semiconductor Address Nul l ADC ...

Page 106

... Reserved for a different reading mode Signals sampled Readout Address 0 X position 1 X position 2 Dummy 3 Y position 4 Y position 5 Dummy 6 Contact resistance 7 Contact resistance Address as indicated by ADA1[2:0] and ADA2[2:0] Description (73) 000 001 010 011 100 101 110 111 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 107

... R1, followed conversion. The result of the conversion is used to increase/ decrease the contents of a counter that can be read out by software. This function will require a 10 μF output capacitor to perform Analog Integrated Circuit Device Data Freescale Semiconductor ATO+1 Conversions Conversions ...

Page 108

... Sensed current On consumption Resolution 13892 108 Figure 31. Coulomb Counter Block Diagram Condition Min Placed in Battery path of - Charger system ± 1.0 Through R1 CC active - 1LSB Increment - Typ Max Unit m Ω ± 3000 - mA μ μ C 381.47 - Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 109

... BP will not drop below UVDET. To still detect a battery removal, one can use the battery detect function as described in the channel description earlier in this chapter. When the sense bit BATTDETBS becomes a 1, the CCFAULT is set only after a long debounce of 1 second. Analog Integrated Circuit Device Data Freescale Semiconductor FUNCTIONAL DEVICE OPERATION ADC SUBSYSTEM 13892 ...

Page 110

... SWBST voltage brought in at the VINUSB pin and internally connected to the VBUS pin for OTG mode operation. The VUSBIN SPI bit is used to make the selection between host or OTG mode operation as defined in 13892 110 CONNECTIVITY Battery Interface and Control for more details on the charging system). Figure 32. USB Interface Analog Integrated Circuit Device Data Table 99. Freescale Semiconductor ...

Page 111

... BP even in cases where the regulators are not used by the application. Table 100. VUSB2 Voltage Control Parameter VUSB2[1:0] Analog Integrated Circuit Device Data Freescale Semiconductor Function Table 99, control switching SWBST to drive VBUS in OTG mode. Battery Interface and Value ...

Page 112

... V μ 1.0 s Accessory Non-USB accessory is attached (per CEA- 936-A spec) A type plug (USB Default Slave) is attached (per CEA-936-A spec) B type plug (USB Host, OTG default master or no device) is attached. Factory mode Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 113

... UID Parallel Pull-up ID100KPU = 1, Resistor to VCORE Notes 77. Note that the UID Pull-ups are not mutually exclusive of each other; they are independently controlled by their enable bits and thus multiple pull-ups can be engaged simultaneously. Analog Integrated Circuit Device Data Freescale Semiconductor Condition Min 40 132 4.75 60 ...

Page 114

... LEDx Current Level (mA) (78) LEDxHI = 0 LEDxHI = “x“ Represents MD, AD and KP (79) LEDxDC[5:0] Duty Cycle 000000 0/32, Off 000001 1/32 … … 010000 16/32 … … 011111 31/32 100000 to 111111 32/32, Continuously On “x” represents MD, AD Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 115

... Figure 34 illustrates some possible configurations for the backlight driver. Note that when parallel strings are ganged together on a driver channel, ballasting resistance is recommended to help balance the currents in each leg. Analog Integrated Circuit Device Data Freescale Semiconductor One Driver Two Drivers Active ...

Page 116

... R, G and B (82) Duty Cycle 0/32, Off 1/32 … 16/32 … 31/32 32/32, Continuously On “x” represents R, G and B External Boost LEDAD LEDKP 12 LED Keypad Arrangement 2 LED Reduced Keypad Option Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 117

... Apart from using the signal 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. For the maximum voltage ratings. Analog Integrated Circuit Device Data Freescale Semiconductor Repetition Rate 00 ...

Page 118

... SPI BITMAP 13892 118 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 119

... Analog Integrated Circuit Device Data Freescale Semiconductor SPI BITMAP 13892 119 ...

Page 120

... SPI BITMAP 13892 120 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 121

... Analog Integrated Circuit Device Data Freescale Semiconductor SPI BITMAP 13892 121 ...

Page 122

... Low battery low threshold warning RESETB 0 Low battery high threshold warning 0 For future use OFFB 0 USB B-session valid interrupt 0 For future use 0 For future use RESETB 0 USB ID float detect RESETB 0 USB ID ground detect Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 123

... VBUSVALIDS 3 IDFACTORYS 4 USBOVS 5 CHGDETS 6 CHGENS 7 CHGFAULTS0 8 CHGFAULTS1 9 CCCVS 10 CHGCURRS 11 BPONS 12 LOBATLS 13 Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RESETB 0 Wall Charger detect 0 For future use 0 For future use R/W Reset Default R/W RESETB 1 R/W RESETB 1 R/W RESETB 1 R/W OFFB ...

Page 124

... For future use Reset Default RTCPORB 1 1HZI mask bit RTCPORB 1 TODAI mask bit OFFB 1 PWRON3 mask bit OFFB 1 PWRON1 mask bit OFFB 1 PWRON2 mask bit RTCPORB 1 WDIRESETI mask bit RTCPORB 1 SYSRSTI mask bit Description Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 125

... R Reserved 19 R Reserved 20 R Unused 21 R BATTDETBS 22 R Spare 23 R Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RTCPORB 1 RTCRSTI mask bit OFFB 1 PCI mask bit RTCPORB 1 WARMI mask bit RTCPORB 1 MEMHLDI mask bit RTCPORB 0 Low power USB detect mask bit ...

Page 126

... NONE X R NONE X R NONE X R NONE 0 R NONE 1 R NONE 0 R NONE 0 R NONE 0 R NONE Description Description Revision Not available Generation ID MC13892 fin version MC13892 fab identifier IC ID Within generation Not available Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 127

... R CCOUT8 16 R CCOUT9 17 R CCOUT10 18 R CCOUT11 19 R CCOUT12 20 R CCOUT13 21 R CCOUT14 22 R CCOUT15 23 R Analog Integrated Circuit Device Data Freescale Semiconductor R/W Reset Default R/W Reset Default R 0 Reset Default RTCPORB Run, 0=Stop RTCPORB Reset, self clearing RTCPORB 0 ...

Page 128

... Global Reset Function enabled on the PWRON3 pin RESETB 0 Thermal protection threshold select PCUTEXPB startup event indicates that PCUT timer did RTCPORB 0 not expire (assuming it was set to 1 after booting) 0 Not available Description Description Not available Description Not available Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 129

... R Unused 23 R Table 127. Register 15, Power Control 2 Name Bit # R/W RESTARTEN 0 R/W PWRON1RSTEN 1 R/W PWRON2RSTEN 2 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default 0 Not available 0 Not available 0 Not available 0 Not available 0 Not available RTCPORB 0 RTCPORB 0 0 For future use ...

Page 130

... RTCPORB 0 0 For future use 0 RTCPORB 0 CLK32K and CLK32KMCU drive strength (master control bits) RTCPORB For future use 0 RESETB 1 Standby delay control RESETB 0 Reset Default 0 Not available Reset Default 0 Not available Description Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 131

... MEMA15 15 R/W MEMA16 16 R/W MEMA17 17 R/W MEMA18 18 R/W MEMA19 19 R/W MEMA20 20 R/W MEMA21 21 R/W MEMA22 22 R/W MEMA23 23 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 Backup memory A ...

Page 132

... RTCPORB 0 RTCPORB 0 Reset Default RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 Time of day counter RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTCPORB 0 RTC calibration count RTCPORB 0 RTCPORB 0 Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 133

... R/W DAY7 7 R/W DAY8 8 R/W DAY9 9 R/W DAY10 10 R/W DAY11 11 R/W DAY12 12 R/W DAY13 13 R/W DAY14 14 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RTCPORB 0 RTC calibration mode RTCPORB 0 Reset Default RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 ...

Page 134

... Default RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 Day alarm RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB 1 RTCPORB Not available Reset Default NONE * NONE * NONE * SW1 setting in normal mode NONE * NONE * Description Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 135

... R/W SW2SIDMAX2 17 R/W SW2SIDMAX3 18 R/W SW2SIDMIN0 19 R/W SW2SIDMIN1 20 R/W SW2SIDMIN2 21 R/W SW2SIDMIN3 22 R/W SW2HI 23 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default NONE * NONE * NONE * SW1 setting in DVS mode NONE * NONE * NONE * NONE * NONE * SW1 setting in Standby mode NONE * ...

Page 136

... SW3 output range selection Reset Default NONE * NONE * NONE * SW4 setting in normal mode NONE * NONE * NONE * NONE * NONE * For future use NONE * NONE * NONE * NONE * NONE * SW4 setting in Standby mode NONE * NONE * Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 137

... Table 141. Register 29, Switchers 5 Name Bit # R/W SW3MODE0 0 R/W SW3MODE1 1 R/W SW3MODE2 2 R/W SW3MODE3 3 R/W SW3MHMODE 4 R/W SW3UOMODE 5 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default Not available NONE * SW4 output range selection Reset Default RESETB 0 RESETB 1 SW1 operating mode RESETB ...

Page 138

... VPLL setting NONE * NONE * VUSB2 setting NONE * 0 Not available RESETB 1 VGEN3 setting 0 Not available RESETB 0 VCAM setting RESETB 1 RESETB 0 For future use 0 Not available 0 Not available 0 Not available 0 Not available 0 Not available Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 139

... VGEN2STBY 13 R/W VGEN2MODE 14 R/W VPLLEN 15 R/W VPLLSTBY 16 R/W Spare 17 R/W VUSB2EN 18 R/W VUSB2STBY 19 R/W Spare 20 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default 0 For future use 0 RESETB 0 VVIDEO setting RESETB 1 RESETB 1 VAUDIO setting RESETB 0 RESETB 1 RESETB 1 VSD setting RESETB ...

Page 140

... RESETB 0 GPO1 enable RESETB 0 GPO1 controlled by standby RESETB 0 GPO2 enable RESETB 0 GPO2 controlled by standby RESETB 0 GPO3 enable RESETB 0 GPO3 controlled by standby RESETB 0 GPO4 enable RESETB 0 GPO4 controlled by standby 0 Not available Description Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 141

... Table 153. Register 41, Unused Name Bit # R/W Unused 23-0 R Table 154. Register 42, Unused Name Bit # R/W Unused 23-0 R Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RESETB 1 Power Gate 1 enable RESETB 1 Power Gate 2 enable RESETB 0 For future use 0 0 Not available ...

Page 142

... RESETB 0 RESETB 0 Channel selection 2 RESETB 0 RESETB 0 RESETB 0 RESETB 0 RESETB 0 Delay before first conversion RESETB 0 RESETB 0 RESETB 0 RESETB 0 RESETB 0 Sets ATO delay for any conversion RESETB 0 Starts conversion RESETB 0 Ignores the ADTRIG input Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 143

... R Unused 3 R Unused 4 R Unused 5 R ICID0 6 R ICID1 7 R ICID2 8 R Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RESETB 0 Single trigger event only RESETB 0 Access to the ADCBIS control Reset Default NONE 0 For 12 bit use NONE 0 NONE 0 NONE 0 NONE ...

Page 144

... Result for channel selection 1 of ADCBIS NONE 0 NONE 0 NONE 0 NONE 0 NONE 0 NONE 0 For 12 bit use NONE 0 NONE 0 NONE 0 NONE 0 NONE 0 NONE 0 Result for channel selection 2 of ADCBIS NONE 0 NONE 0 NONE 0 NONE 0 NONE 0 Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 145

... Reserved 16 R Unused 17 R Unused 18 R Reserved 19 R Reserved 20 R Reserved 21 R Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RESETB 1 RESETB 1 Sets the charge regulator output voltage RESETB 0 RESETB 0 RESETB 0 Sets the main charger DAC current RESETB 0 RESETB 0 RESETB ...

Page 146

... Main display driver ramp enable RESETB 0 RESETB 0 RESETB 0 Main display driver duty cycle RESETB 0 RESETB 0 RESETB 0 RESETB 0 RESETB 0 Main display driver current setting RESETB 0 RESETB 0 For future use RESETB 0 Auxiliary display driver high current mode Description Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 147

... Unused 23 R Table 165. Register 53, LED Control 2 Name Bit # R/W LEDRPER0 0 R/W LEDRPER1 1 R/W LEDRRAMP 2 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default RESETB 0 Auxiliary display driver ramp enable RESETB 0 RESETB 0 RESETB 0 Auxiliary display driver duty cycle RESETB 0 RESETB 0 ...

Page 148

... RESETB 0 RESETB 0 Blue channel driver duty cycle RESETB 0 RESETB 0 RESETB 0 RESETB 0 RESETB 0 Blue channel driver current setting RESETB 0 RESETB 0 Enable SWBST for RGB LED’s RESETB 0 For future use RESETB Not available Description Description Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 149

... Bit # R/W FSL Use Only 23:0 R/W Table 175. Register 63, FSL Use Only Name Bit # R/W FSL Use Only 23:0 R/W Analog Integrated Circuit Device Data Freescale Semiconductor Reset Default 0 Not available Reset Default 0 Not available Reset Default RTCPORB FSL Reset ...

Page 150

... VINDIG 2.2u BP Pass VDIG VDIG FET VINCAMDRV BP Pass 2.2u FET BP VCAM VSDDRV VSD VSD 2.2u BP VGEN1DRV VGEN1 BP 2.2u VGEN2DRV VGEN2 2.2u BP VINGEN3DRV Pass FET VGEN3 2.2u GNDREG1 GPO GNDREG2 Control GNDREG3 Analog Integrated Circuit Device Data Freescale Semiconductor SW4 Output 10u ...

Page 151

... For the most current package revision, visit www.freescale.com and perform a keyword search using the “98A” listed below. Analog Integrated Circuit Device Data Freescale Semiconductor PACKAGING PACKAGE DIMENSIONS VK SUFFIX 139-PIN 98ASA10820D REVISION 0 PACKAGING PACKAGE DIMENSIONS 13892 151 ...

Page 152

... PACKAGING PACKAGE DIMENSIONS 13892 152 VK SUFFIX 139-PIN 98ASA10820D REVISION 0 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 153

... Analog Integrated Circuit Device Data Freescale Semiconductor VL SUFFIX 186-PIN 98ASA10849D REVISION 0 PACKAGING PACKAGE DIMENSIONS 13892 153 ...

Page 154

... PACKAGING PACKAGE DIMENSIONS 13892 154 VL SUFFIX 186-PIN 98ASA10849D REVISION 0 Analog Integrated Circuit Device Data Freescale Semiconductor ...

Page 155

... Table 176. Additional Documentation Document Number MC13892ER MC13892ER, Silicon Mask Errata Analog Integrated Circuit Device Data Freescale Semiconductor ADDITIONAL DOCUMENTATION Description ADDITIONAL DOCUMENTATION 13892 155 ...

Page 156

... Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer purchase or use Freescale Semiconductor products for any such unintended ...