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PMS271-S14

PMS271-S14

  • 厂商:

    PADAUK(应广)

  • 封装:

    SOP14_150mil

  • 描述:

    PMS271-S14

  • 数据手册
  • 价格&库存
PMS271-S14 数据手册
PMC271/PMS271 Series 8-bit ADC Field Programmable Processor Array (FPPATM) 8-bit Controller Data Sheet Version 0.04– June 11, 2015 Copyright  2015 by PADAUK Technology Co., Ltd., all rights reserved 10F-2, No. 1, Sec. 2, Dong-Da Road, Hsin-Chu 300, Taiwan, R.O.C. TEL: 886-3-532-7598  www.padauk.com.tw PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller IMPORTANT NOTICE PADAUK Technology reserves the right to make changes to its products or to terminate production of its products at any time without notice. Customers are strongly recommended to contact PADAUK Technology for the latest information and verify whether the information is correct and complete before placing orders. PADAUK Technology products are not warranted to be suitable for use in life-support applications or other critical applications. PADAUK Technology assumes no liability for such applications. Critical applications include, but are not limited to, those that may involve potential risks of death, personal injury, fire or severe property damage. PADAUK Technology assumes no responsibility for any issue caused by a customer’s product design. Customers should design and verify their products within the ranges guaranteed by PADAUK Technology. In order to minimize the risks in customers’ products, customers should design a product with adequate operating safeguards. ©Copyright 2015, PADAUK Technology Co. Ltd Page 2 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Table of Contents 1.  Features ............................................................................................................................... 8  1.1. 1.2. 1.3. 1.4. Special Features ..................................................................................................................... 8 System Features ..................................................................................................................... 8 CPU Features ......................................................................................................................... 8 Package Information ............................................................................................................... 9  2.  General Description and Block Diagram ........................................................................ 10  3.  Pin Assignment and Description..................................................................................... 11  4.  Device Characteristics ..................................................................................................... 16  4.1. 4.2. 4.3. 4.4. 4.5. 4.6. 4.7. 4.8. 4.9. 4.10. 4.11. 4.12. 4.13. 4.14. 4.15. 4.16. DC/AC Characteristics .......................................................................................................... 16 Absolute Maximum Ratings .................................................................................................. 18 Typical IHRC Frequency vs. VDD (calibrated to 16MHz) ..................................................... 18 Typical ILRC Frequency vs. VDD ......................................................................................... 18 Typical IHRC Frequency vs. Temperature (calibrated to 16MHz) ........................................ 19 Typical ILRC Frequency vs. Temperature ............................................................................ 19 Typical Operating Current vs. VDD and CLK=IHRC/n .......................................................... 20 Typical Operating Current vs. VDD and CLK=ILRC/n .......................................................... 20 Typical Lowest Operating Current vs. VDD and CLK=ILRC/n .............................................. 21 Typical Operating Current vs. VDD @CLK=32KHz EOSC/n ................................................ 22 Typical Operating Current vs. VDD @CLK=1MHz EOSC/n ................................................. 23 Typical Operating Current vs. VDD @CLK=4MHz EOSC/n ................................................. 24 Typical IO pull high resistance .............................................................................................. 25 Typical IO driving current (IOH) and sink current (IOL) ............................................................ 25 Typical IO input high / low threshold voltage (VIH/VIL) ........................................................... 25 Typical (VDD/2) Bias output voltage ..................................................................................... 25 5.  Functional Description ..................................................................................................... 26  5.1. 5.2. 5.3. 5.4. Processing Units ................................................................................................................... 26 5.1.1. Program Counter ........................................................................................................ 27 5.1.2. Stack Pointer .............................................................................................................. 27 5.1.3. Single FPP mode........................................................................................................ 28 Program Memory – OTP ....................................................................................................... 29 5.2.1. Program Memory Assignment .................................................................................... 29 5.2.2. Example of Using Program Memory for Two FPP mode ............................................ 29 5.2.3. Example of Using Program Memory for Single FPP mode ........................................ 30 Program Structure................................................................................................................. 31 5.3.1. Program structure of two FPP units mode.................................................................. 31 5.3.2. Program structure of single FPP mode ...................................................................... 31 Boot Procedure ..................................................................................................................... 32 ©Copyright 2015, PADAUK Technology Co. Ltd Page 3 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 5.5. 5.6. 5.7. 5.8. 5.9. 5.10. 5.11. 5.12. 5.13. 5.14. 5.15. 6. Data Memory – SRAM .......................................................................................................... 33 Arithmetic and Logic Unit ...................................................................................................... 33 Oscillator and clock ............................................................................................................... 34 5.7.1. Internal High RC oscillator and Internal Low RC oscillator ......................................... 34 5.7.2. Chip calibration ........................................................................................................... 34 5.7.3. IHRC Frequency Calibration and System Clock ......................................................... 34 5.7.4. External Crystal Oscillator .......................................................................................... 36 5.7.5. System Clock and LVR levels .................................................................................... 37 5.7.6. System Clock Switching ............................................................................................. 38 16-bit Timer (Timer16) .......................................................................................................... 39 Watchdog Timer.................................................................................................................... 40 Interrupt................................................................................................................................. 41 Power-Save and Power-Down .............................................................................................. 42 5.11.1. Power-Save mode (“stopexe”).................................................................................. 43 5.11.2. Power-Down mode (“stopsys”) ................................................................................. 44 5.11.3. Wake-up ................................................................................................................... 45 IO Pins .................................................................................................................................. 46 Reset and LVR...................................................................................................................... 47 5.13.1. Reset ........................................................................................................................ 47 5.13.2. LVR reset.................................................................................................................. 47 LCD Half VDD Bias Voltage.................................................................................................. 47 Analog-to-Digital Conversion (ADC) module ........................................................................ 48 5.15.1 The input requirement for AD conversion .................................................................. 49 5.15.2 ADC clock selection................................................................................................... 50 5.15.3 AD conversion ........................................................................................................... 50 5.15.4 Configuring the analog pins ....................................................................................... 50 IO Registers....................................................................................................................... 51 6.1. 6.2. 6.3. 6.4. 6.5. 6.6. 6.7. 6.8. 6.9. 6.10. 6.11. 6.12. 6.13. 6.14. 6.15. ACC Status Flag Register (flag), IO address = 0x00 ............................................................ 51 FPP unit Enable Register (fppen), IO address = 0x01 .......................................................... 51 Stack Pointer Register (sp), IO address = 0x02 ................................................................... 51 Clock Mode Register (clkmd), IO address = 0x03 ................................................................ 52 Interrupt Enable Register (inten), IO address = 0x04 ........................................................... 52 Interrupt Request Register (intrq), IO address = 0x05 .......................................................... 52 Timer 16 mode Register (t16m), IO address = 0x06............................................................. 53 General Data register for IO (gdio), IO address = 0x07 ........................................................ 53 External Oscillator setting Register (eoscr, write only), IO address = 0x0a .......................... 53 IHRC oscillator control Register (ihrcr, write only), IO address = 0x0b ................................. 54 Interrupt Edge Select Register (integs), IO address = 0x0c.................................................. 54 Port A Digital Input Enable Register (padier), IO address = 0x0d......................................... 55 Port B Digital Input Enable Register (pbdier), IO address = 0x0e......................................... 56 Port A Data Registers (pa), IO address = 0x10 .................................................................... 57 Port A Control Registers (pac), IO address = 0x11 .............................................................. 57 ©Copyright 2015, PADAUK Technology Co. Ltd Page 4 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 6.16. Port A Pull-High Registers (paph), IO address = 0x12 ......................................................... 57 6.17. Port B Data Registers (pb), IO address = 0x14 .................................................................... 57 6.18. Port B Control Registers (pbc), IO address = 0x15 .............................................................. 57 6.19. Port B Pull-High Registers (pbph), IO address = 0x16 ......................................................... 57 6.20. ADC Control Register (adcc), IO address = 0x20 ................................................................. 58 6.21. ADC Mode Register (adcm, write only), IO address = 0x21 ................................................. 58 6.22. ADC Result Register (adcr, read only), IO address = 0x22 .................................................. 59 6.23. ADC Reference High Control Register (adcrhc), IO address = 0x1c .................................... 59 6.24 RESET Status Register (rstst), IO address = 0x25 ................................................................ 59 6.23. MISC Register (misc), IO address = 0x3b ............................................................................ 60 7.  Instructions ....................................................................................................................... 61  7.1. 7.2. 7.3. 7.4. 7.5. 7.6. 7.7. 7.8. 7.9. Data Transfer Instructions..................................................................................................... 62 Arithmetic Operation Instructions .......................................................................................... 67 Shift Operation Instructions................................................................................................... 69 Logic Operation Instructions ................................................................................................. 70 Bit Operation Instructions...................................................................................................... 73 Conditional Operation Instructions ........................................................................................ 74 System control Instructions ................................................................................................... 76 Summary of Instructions Execution Cycle ............................................................................ 78 Summary of affected flags by Instructions ............................................................................ 79  8.  Special Notes .................................................................................................................... 80  8.1. 8.2. Using IC ................................................................................................................................ 80 8.1.1. IO pin usage and setting ................................................................................... 80 8.1.2. Interrupt ............................................................................................................. 81 8.1.3. System clock switching ..................................................................................... 81 8.1.4. Power down mode, wakeup and watchdog ....................................................... 82 8.1.5. TIMER time out ................................................................................................. 82 8.1.6. Using ADC ......................................................................................................... 83 8.1.7. LVR ................................................................................................................... 83 8.1.8. Differences in command timing between single / double FPPA mode .............. 83 8.1.9. Program writing ................................................................................................. 83 Using ICE .............................................................................................................................. 84 8.2.1. Emulating PMC271/PMS271 series IC on ICE PDK3S-I-001/002/003 ............. 84 8.2.2. Important Notice for ICE operation .................................................................... 85  ©Copyright 2015, PADAUK Technology Co. Ltd Page 5 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Revision History: Revision Date Description ST 0.01 2013/12/10 1 version 0.02 2014/2/19 Add chapter 8 Special Notes 0.03 2014/12/22 0.04 2015/6/11 Amend PMS271 operating temperature 1. Amend page 7: PMC271/PMS271 Band-gap mV 2. Amend 1.1 PMS271 series operating temperature range to -20°C ~ 70°C 3. Amend 4.1 Band-gap reference voltage ©Copyright 2015, PADAUK Technology Co. Ltd Page 6 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Major Differences between PDK22C and PMC271/PMS271 There are many differences between PDK22C and PMC271/PMS271. The table below only shows the major differences between them. Item Function PDK22C PMC271/PMS271 1 IO Pin 15 IO + 1 input 16 IO 2 IO capability 15mA@5.0V 10mA@5.0V 3 Band-gap N/A 4 LVR 5 levels LVR setting 8 levels LVR setting 5 Fast wake up N/A Yes 6 Single FPPA mode N/A Yes 7 ADC channel 4 channels 8 channels Yes No External RC and external 8 clock source mode +/- 60mV(@1.20V) after calibration 9 T16 clock source Support external RC oscillator Not support 10 LCD VDD/2 bias voltage Enabled by code option Controlled by misc.4 11 misc register N/A Yes adcdi register padier and pbdier 12 Port digital input configure registers 13 IHRC option command .ADJUST_OTP_IHRCR .ADJUST_IC 14 WDT timeout period 1024 ILRC cycles 4 selectable periods Procedure for converting code from PDK22C to PMC271/PMS271 Please follow the below steps for converting codes from PDK22C to PMC271/PMS271: 1. Go through the PMC271/PMS271 datasheet and user guide; 2. Modify the source code engineering file “.pre”; change “.chip PDK22CXXX” to “.chip PMC271” or “.chip PMS271” 3. Press “Build” and then IDE will show some errors and warnings. 4. Modify the source code correspondingly until all errors have been solved. 5. Save and build the project files again. 6. Write to a real chip and test its functions in detail. 7. Back to the step 3 if necessary. 8. Contact our FAE at fae@padauk.com.tw if you still have any problems. ©Copyright 2015, PADAUK Technology Co. Ltd Page 7 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 1. Features 1.1. Special Features   PMC271 series:  High EFT series  Operating temperature range: -40°C ~ 85°C PMS271 series:  General purpose series  Please don’t apply to AC RC step-down powered, high power ripple or high EFT requirement application  Operating temperature range: -20°C ~ 70°C 1.2. System Features  Clock sources: internal high RC oscillator, internal low RC oscillator and external crystal oscillator  Internal High RC Oscillator (IHRC) frequency  Band-gap circuit to provide 1.20V reference voltage  One hardware 16-bit timer  Total 8-channel 8-bit ADC, including one channel for band-gap reference voltage input  Built-in half VDD bias voltage generator for LCD application  Support fast wake-up  Eight levels of LVR reset ~ 4.1V, 3.6V, 3.1V, 2.8V, 2.5V, 2.2V, 2.0V, 1.8V  16 IO pins with 10mA capability and optional pull-high resistor  Two external interrupt pins  Every IO pin can be configured to enable wake-up function  Operating frequency range: DC ~ 8MHz@VDD≧3.3V; DC ~ 4MHz@VDD≧2.5V; DC ~ 2MHz@VDD≧2.2V  Operating voltage range: 2.2V ~ 5.5V  Low power consumption Ioperating ~ 1.7mA@1MIPS, VDD=5.0V Ioperating ~ 8uA@ILRC=12KHz, VDD=3.3V Ipowerdown ~ 0.7uA@VDD=5.0V Ipowerdown ~ 0.4uA@VDD=3.3V 1.3. CPU Features  Operating modes: Two processing units FPPATM mode or Traditional one processing unit mode  1KW OTP program memory  64 Bytes data RAM  101 powerful instructions  Most instructions are 1T execution cycle  Programmable stack pointer and adjustable stack level  All data memories are available for use as an index pointer  Separated IO space and memory space ©Copyright 2015, PADAUK Technology Co. Ltd Page 8 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 1.4. Package Information  PMC271 series PMC271 - S14: SOP14 (150mil); PMC271 - S16: SOP16 (150mil) ; PMC271 - S18: SOP18 (300mil) ; PMC271 - Y16: SSOP16 (150mil); PMC271 - Y20: SSOP20 (150mil); PMC271 - D14: DIP14 (300mil);  PMS271 series PMS271 - S14: SOP14 (150mil); PMS271 - S16: SOP16 (150mil) ; PMS271 - S18: SOP18 (300mil) ; PMS271 - Y16: SSOP16 (150mil); PMS271 - Y20: SSOP20 (150mil); PMS271 - D14: DIP14 (300mil); ©Copyright 2015, PADAUK Technology Co. Ltd Page 9 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 2. General Description and Block Diagram The PMC271/PMS271 series is an ADC-Type of PADAUK’s parallel processing, fully static, OTP-based CMOS two 8 bit processor array that can execute two peripheral functions in parallel. Besides operated in two processing units, PMC271/PMS271 can act as traditional MCU in one processing unit. The PMC271/PMS271 employs RISC architecture based on patented FPPA™ (Field Programmable Processor Array) technology and most the instructions are executed in one cycle except that few instructions are two cycles that handle indirect memory access. 1KW bits OTP program memory and 64 bytes data SRAM are inside for two FPP units using, PMC271/PMS271 provides one hardware 16-bit timer, one 8 channels 8-bit ADC and hardware circuit to generate half VDD bias voltage for LCD application. The functions for peripheral devices like UART and PWM can be easily implemented by using FPPA™ unique architecture. FPP0 Internal Processor Bus PWM Function Internal Processor Bus 1KW OTP & Task Control I2C Function SPI Function Interrupt controller 16-bit Timer IO Ports 64 Bytes SRAM FPP1 8-Bit ADC UART Function POR / LVD Key scan Function Watchdog Timer LCD Function Power management ©Copyright 2015, PADAUK Technology Co. Ltd Page 10 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 3. Pin Assignment and Description PMC271 series PA2/COM2 1 14 PA1/COM1 PA2/COM2 1 16 PA1/COM1 PA3/AD5/COM3 2 13 PA0/INT0 PA3/AD5//COM3 2 15 PA0/INT0 PA4/AD6/COM4 3 12 PA7/X1 PA4/AD6/COM4 3 14 PA7/X1 PA5/PRST# 4 11 PA6/X2 PA5/PRST# 4 13 PA6/X2 GND 5 10 VDD PB0/INT1/AD0 6 9 PB7/AD4 PB1/AD1 7 8 PB6 PMC271 (SOP14-150mil) PMC271 (DIP14-300mil) GND 5 12 VDD PB0/INT1/AD0 6 11 PB7/AD4 PB1/AD1 7 10 PB6 PB2/AD2 8 9 PB5 PMC271 (SSOP16-150mil) PMC271 (SOP16-150mil) PA2/COM2 1 18 PA1/COM1 PA2/COM2 1 20 PA1/COM1 PA3/AD5/COM3 2 17 PA0/INT0 PA3/AD5/COM3 2 19 PA0/INT0 3 18 PA7/X1 PA4/AD6/COM4 3 16 PA7/X1 PA4/AD6/COM4 PA5/PRST# 4 15 PA6/X2 PA5/PRST# 4 17 PA6/X2 GND 5 16 VDD GND 5 14 VDD PB0/INT1/AD0 6 13 PB7/AD4 NC 6 15 NC 12 PB6 PB0/INT1//AD0 7 14 PB7/AD4 PB1/AD1 7 PB2/AD2 8 11 PB5 PB1/AD1 8 13 PB6 PB3/AD3 9 10 PB4 PB2/AD2 9 12 PB5 PB3/AD3 10 11 PB4 PMC271 (SOP18-300mil) PMC271 (SSOP20-150mil) ©Copyright 2015, PADAUK Technology Co. Ltd Page 11 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller PMS271 series PA2/COM2 1 14 PA1/COM1 PA2/COM2 1 16 PA1/COM1 PA3/AD5/COM3 2 13 PA0/INT0 PA3/AD5//COM3 2 15 PA0/INT0 PA4/AD6/COM4 3 12 PA7/X1 PA4/AD6/COM4 3 14 PA7/X1 PA5/PRST# 4 11 PA6/X2 PA5/PRST# 4 13 PA6/X2 GND 5 10 VDD GND 5 12 VDD PB0/INT1/AD0 6 9 PB7/AD4 PB0/INT1/AD0 6 11 PB7/AD4 PB1/AD1 7 8 PB6 PB1/AD1 7 10 PB6 PB2/AD2 8 9 PB5 PMS271 (SOP14-150mil) PMS271 (DIP14-300mil) PMS271 (SSOP16-150mil) PMS271 (SOP16-300mil) PA2/COM2 1 20 PA1/COM1 PA0/INT0 PA3/AD5/COM3 2 19 PA0/INT0 PA7/X1 PA4/AD6/COM4 3 18 PA7/X1 PA5/PRST# 4 17 PA6/X2 GND 5 16 VDD NC 6 15 NC PA2/COM2 1 18 PA1/COM1 PA3/AD5/COM3 2 17 PA4/AD6/COM4 3 16 PA5/PRST# 4 15 PA6/X2 GND 5 14 VDD PB0/INT1/AD0 6 13 PB7/AD4 PB1/AD1 7 12 PB6 PB0/INT1//AD0 7 14 PB7/AD4 PB2/AD2 8 11 PB5 PB1/AD1 8 13 PB6 PB3/AD3 9 10 PB4 PB2/AD2 9 12 PB5 PB3/AD3 10 11 PB4 PMS271 (SOP18-300mil) PMS271 (SSOP20-150mil) ©Copyright 2015, PADAUK Technology Co. Ltd Page 12 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Pin Description Pin Name Pin & Buffer Type Description The functions of this pin can be: IO PA7/X1 ST / CMOS / Analog (1) Bit 7 of port A. It can be configured as input or output with pull-up resistor. (2) X1 (input) when crystal oscillator is used. If this pin is used for crystal oscillator, bit 7 of padier register must be programmed “0” to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function is also disabled if bit 7 of padier register is “0”. The functions of this pin can be: IO PA6/X2 ST / CMOS / Analog (1) Bit 6 of port A. It can be configured as input or output with pull-up resistor. (2) X2 (output) when crystal oscillator is used. If this pin is used for crystal oscillator, bit 6 of padier register must be programmed “0” to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function is also disabled if bit 6 of padier register is “0”. The functions of this pin can be: (1) Bit 5 of port A. It can be configured as input or open-drain output pin. Please notice that there is no pull-up resistor in this pin. PA5/PRST# IO (2) Hardware reset. ST / CMOS This pin can be used to wake-up system during sleep mode; however, wake-up function is also disabled if bit 5 of padier register is “0”. Please put 33Ω resistor in series to have high noise immunity when this pin is in input mode. The functions of this pin can be: (1) Bit 4 of port A. It can be configured as input or output with pull-up resistor. IO PA4/AD6/COM4 ST / CMOS / Analog (2) Channel 6 input of ADC. (3) COM4 for LCD to provide (1/2 VDD) for LCD bias voltage. If this pin acts as analog input, bit 4 of padier register must be programmed “0” to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 4 of padier register is “0” The functions of this pin can be: (1) Bit 3 of port A. It can be configured as input or output with pull-up resistor. IO PA3/AD5/COM3 ST / CMOS / Analog (2) Channel 5 input of ADC. (3) COM3 for LCD to provide (1/2 VDD) for LCD bias voltage. If this pin acts as analog input, bit 3 of padier register must be programmed “0” to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 3 of padier register is “0”. ©Copyright 2015, PADAUK Technology Co. Ltd Page 13 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Pin Name Pin Type & Description Buffer Type The functions of this pin can be: PA2/COM2 IO ST / CMOS (1) Bit 2 of port A. It can be configured as input or output with pull-up resistor. (2) COM2 for LCD to provide (1/2 VDD) for LCD bias voltage. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 2 of padier register is “0”. The functions of this pin can be: PA1/COM1 IO ST / CMOS (1) Bit 1 of port A. It can be configured as input or output with pull-up resistor. (2) COM1 for LCD to provide (1/2 VDD) for LCD bias voltage. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 1 of padier register is “0”. The functions of this pin can be: (1) Bit 0 of port A. It can be configured as input or output with pull-up resistor. PA0/INT0 IO ST / CMOS (2) External interrupt line 0. Both rising edge and falling edge are accepted to request interrupt service. This pin can be used to wake-up system during sleep mode, however, wake-up function from this pin is also disabled when bit 0 of padier register is “0”. Both rising edge and falling edge are accepted to request interrupt service. The functions of this pin can be: (1) Bit 7 of port B. It can be configured as input or output with pull-up resistor. IO PB7/AD4 (2) Channel 4 input of ADC. ST / CMOS / If this pin acts as analog input, bit 7 of pbdier register must be programmed “0” Analog to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 7 of pbdier register is “0”. The function of this pin is Bit 6 of port B. It can be configured as input or output PB6 IO ST / CMOS with pull-up resistor. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 6 of pbdier register is “0”. The function of this pin is Bit 5 of port B. It can be configured as input or output PB5 IO ST / CMOS with pull-up resistor. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 5 of pbdier register is “0”. The function of this pin is Bit 4 of port B. It can be configured as input or output PB4 IO ST / CMOS with pull-up resistor. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 4 of pbdier register is “0”. ©Copyright 2015, PADAUK Technology Co. Ltd Page 14 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller Pin Name Pin Type & Description Buffer Type The functions of this pin can be: (1) Bit 3 of port B. It can be configured as input or output with pull-up resistor. IO PB3/AD3 (2) Channel 3 input of ADC. ST / CMOS / If this pin acts as analog input, bit 3 of pbdier register must be programmed “0” Analog to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 3 of pbdier register is “0”. The functions of this pin can be: (1) Bit 2 of port B. It can be configured as input or output with pull-up resistor. IO PB2/AD2 (2) Channel 2 input of ADC. ST / CMOS / If this pin acts as analog input, bit 2 of pbdier register must be programmed “0” Analog to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 2 of pbdier register is “0”. The functions of this pin can be: (1) Bit 1 of port B. It can be configured as input or output with pull-up resistor. IO PB1/AD1 (2) Channel 1 input of ADC. ST / CMOS / If this pin acts as analog input, bit 1 of pbdier register must be programmed “0” Analog to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 1 of pbdier register is “0”. The functions of this pin can be: (1) Bit 0 of port B. It can be configured as input or output with pull-up resistor. (2) External interrupt line 1. Both rising edge and falling edge are accepted to IO PB0/INT1/AD0 request interrupt service. ST / CMOS / (3) Channel 0 input of ADC. Analog If this pin acts as analog input, bit 0 of pbdier register must be programmed “0” to avoid leakage current. This pin can be used to wake-up system during sleep mode; however, wake-up function from this pin is also disabled when bit 0 of pbdier register is “0”. VDD Positive power GND Ground Notes: IO: Input/Output; ST: Schmitt Trigger input; Analog: Analog input pin; CMOS: CMOS voltage level ©Copyright 2015, PADAUK Technology Co. Ltd Page 15 of 85 PDK-DS-PMX271-EN_V004 – June 11, 2015 PMC271/PMS271 Series 8-bit ADC FPPATM 8-bit Controller 4. Device Characteristics 4.1. DC/AC Characteristics All data are acquired under the conditions of Ta = - 40 oC ~ 85 oC, Vdd=5.0V, fSYS=2MHz unless noted. Symbol Description Min Typ Max Unit Conditions VDD fSYS Operating Voltage System clock* = IHRC/2 IHRC/4 & crystal oscillator IHRC/8 & crystal oscillator ILRC 2.2 5.0 0 0 0 5.5 8M 4M 2M V fSYS = 2MHz Hz Under_20ms_Vdd_ok**=Y/N VDD≧3.0V / VDD≧3.3V VDD≧2.5V / VDD≧2.8V VDD≧2.2V / VDD≧2.2V VDD = 5.0V 24K IOP Operating Current 1.7 8 mA uA fSYS=1MIPS@5.0V fSYS=ILRC=12KHz@3.3V IPD Power Down Current (by stopsys command) 0.7 0.4 uA uA fSYS= 0Hz,VDD=5.0V fSYS= 0Hz,VDD=3.3V IPS Power Save Current (by stopexe command) 0.4 mA VDD=5.0V; Band-gap, LVR, IHRC, ILRC, Timer16 modules are ON. VIL Input low voltage for IO lines 0 0.3VDD V VIH Input high voltage for IO lines 0.7 VDD VDD V IOL IO lines sink current 13 mA VDD=5.0V, VOL=0.5V VDD=5.0V, VOH=4.5V IOH IO lines drive current VIN Input voltage IINJ (PIN) RPH VBRD 10 -5 -7 -0.3 Injected current on pin Low Voltage Detect Voltage * (Brown-out voltage) Band-gap Reference Voltage * (after calibration) ©Copyright 2015, PADAUK Technology Co. Ltd -9 mA VDD+0.3 V 1 mA VDD+0.3≧VIN≧ -0.3 KΩ VDD=5.0V VDD=3.3V VDD=2.2V 62 100 210 Pull-high Resistance Band-gap Reference Voltage (before calibration) VBG 7 3.86 3.35 2.84 2.61 2.37 2.04 1.86 1.67 4.15 3.60 3.05 2.80 2.55 2.20 2.00 1.80 4.44 3.85 3.26 3.00 2.73 2.35 2.14 1.93 1.104* 1.109* 1.200* 1.200* 1.296* 1.291* 1.140* 1.145* 1.200* 1.200* 1.260* 1.255* Page 16 of 85 V V VDD=2.2V ~ 5.5V -40oC
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