AT89C5122D-PSTUM Atmel, AT89C5122D-PSTUM Datasheet

Page 1

... Up to Seven LED outputs with 3 level programmable current source : 2, 4 and 10 mA – Two General Purpose I/O programmable as external interrupts – input lines programmable as interrupts – output lines C51 Microcontroller with USB and Smart Card Reader Interfaces AT83C5122 AT83R5122 AT85C5122 AT89C5122 AT89C5122DS AT83C5123 Rev. 4202F–SCR–07/2008 1 ...

Page 2

Reference Documents AT83R5122, AT8xC5122/23 2 The user must get the following additionnal documents which are not included but which complete this product datasheet • Product Errata Sheet • Bootloader Datasheet 4202F–SCR–07/2008 ...

Page 3

... VQFP64 PLCC68 QFN64 VQFP64 Die Form Die Form 32KB ROM 32KB CRAM Yes All features are available AT83R5122, AT8xC5122/23 AT89C5122 AT89C5122DS VQFP64 VQFP64 QFN64 QFN64 32KB E2PROM 32KB E2PROM No No Yes Yes All features are available except External Program Memory Access ...

Page 4

AT8xC5122/AT83R5122 Block Diagram 3.3 V Regulator XTAL1 8 MHz 256 x 8 Oscillator RAM XTAL2 PLLF PLL WATCH-DOG POR RST PFD RESET 8-BIT 3-BIT 8-BIT PORT PORT PORT AT83C5123 Block Diagram 3.3 V Regulator XTAL1 8 MHz 256 x 8 ...

Page 5

Pinout High Pin Count Package Description AT8xC5122/AT83R5122 version 4202F–SCR–07/2008 Figure 1. VQFP64 Package Pinout DVCC 2 P1.2/CPRES CC8 3 P5.7/KB7 4 5 P5.6/KB6 6 CRST P5.5/KB5 7 P5.4/KB4 8 CC4 9 10 ...

Page 6

AT83R5122, AT8xC5122/23 6 Figure 2. PLCC68 Package Pinout (for engineering purpose only DVCC 10 P1.2/CPRES 11 CC8 12 P5.7/KB7 13 P5.6/KB6 14 CRST 15 P5.5/KB5 16 P5.4/KB4 17 CC4 18 P5.3/KB3 19 P5.2/KB2 20 ...

Page 7

Figure 3. QFN64 Package Pinout DVCC 2 P1.2/CPRES CC8 3 P5.7/KB7 4 5 P5.6/KB6 CRST 6 P5.5/KB5 7 P5.4/KB4 8 CC4 9 10 P5.3/KB3 P5.2/KB2 11 CCLK 12 13 P5.1/KB1 14 ...

Page 8

... AT89C5122DS version AT83R5122, AT8xC5122/23 8 Figure 4. VQFP64 Package Pinout DVCC 2 P1.2/CPRES CC8 3 P5.7/KB7 4 5 P5.6/KB6 CRST 6 P5.5/KB5 7 P5.4/KB4 8 CC4 9 10 P5.3/KB3 P5.2/KB2 11 CCLK 12 13 P5.1/KB1 14 P5.0/KB0 PSEN 15 16 VSS P3.1/TxD 47 P1.6/SS P2.7/A15 46 P3.0/RxD 45 P3.5/T1/CRST1 44 43 P3.2/INT0/LED0/CIO1 42 P4.0/MISO P3.3/INT1 41 VQFP64 P4.1/MOSI 40 P3.4/T0/LED1 39 P4.2/SCK 38 P4 ...

Page 9

Figure 5. QFN64 Package Pinout DVCC 2 P1.2/CPRES CC8 3 P5.7/KB7 4 5 P5.6/KB6 CRST 6 P5.5/KB5 7 P5.4/KB4 8 CC4 9 10 P5.3/KB3 P5.2/KB2 11 CCLK 12 13 P5.1/KB1 14 ...

Page 10

Low Pin Count Package Description AT83C5123 version AT83R5122, AT8xC5122/23 10 Figure 6. VQFP32 Package Pinout 32 DVCC 1 P1.2/CPRES 2 CC8 3 4 CRST 5 CC4 6 CCLK 7 P5.0 8 VSS 9 Figure 7. QFN32 Package Pinout 32 1 ...

Page 11

Pin Description Table 2. Pin Description Port ...

Page 12

Table 2. Pin Description (Continued) Port ...

Page 13

... Warning : EA pin cannot be left floating. If the External Access Enable mode is not used, EA pin must be strapped to VCC. If this last condition is not met,the MCU may have an unpredictable behaviour. VCC (Only AT89C5122DS) Address Latch Enable/Program Pulse: Output pulse for latching the low byte of the address during an access to external memory. In ...

Page 14

Table 2. Pin Description (Continued) Port PSEN PLLF AVCC VCC CVCC ...

Page 15

Typical Applications Recommended External components Table 3. External Components Bill Of Materials Reference Description R1 USB Full Speed Pull-up R2 USB pad serial resistor R3 USB pad serial resistor R4 PLL filter resistor R5 CIO Pull-up resistor C1 Power Supply ...

Page 16

... USB Keyboard with Smart Card Reader Using AT83R5122, AT8xC5122/AT89C5122DS USB VCC VBUS D+ D- GND GND Keyboard Matrix R4 C3 Notes : 1 - Pin configuration depends on product versions AT83R5122, AT8xC5122/23 16 VCC VCC C9 C8 GND GND VCC VCC AVCC EA/VCC (1) 10mA Max DVCC C4 GND R1 VREF CVCC ...

Page 17

USB Smart Card Reader Using the AT83C5123 Version 10mA Max USB VCC VBUS D+ D- GND GND R4 C3 GND 4202F–SCR–07/2008 VCC VCC C9 C8 GND GND VCC AVCC DVCC C4 GND R1 VREF PLLF VSS ...

Page 18

Memory Organization Program Memory Managament AT83R5122, AT8xC5122/23 18 The AT83R5122, AT8xC5122/23 devices have separated address spaces for Program and Data Memory, as shown in Figure 12 on page 27, Figure 13 on page 29 and Figure 14 on page 30. ...

Page 19

Data Memory Managament RAM Achitecture XRAM Achitecture 4202F–SCR–07/2008 All device versions implements : - 256 Bytes of RAM to increase data parameter handling and high level language usage - 512 bytes of XRAM (Extended RAM) to store program data. The ...

Page 20

Dual Data Pointer Register (DDPTR) AT83R5122, AT8xC5122/ access to external XRAM memory locations higher than the accessible size of the memory (roll-over feature) will be performed with the MOVX DPTR instructions, with P0 and P2 as data/address busses, ...

Page 21

Figure 10. Use of Dual Pointer 7 DPS AUXR1(A2H) Assembly Language 4202F–SCR–07/2008 0 DPTR1 DPTR0 DPH(83H) DPL(82H) a. Bit 2 stuck at 0; this allows to use INC AUXR1 to toggle DPS without changing GF3. ; Block move using dual ...

Page 22

Registers AT83R5122, AT8xC5122/23 22 Table 5. Auxiliary Register - AUXR (8Eh DPU - - Bit Bit Number Mnemonic Description Disable weak Pull-up 7 DPU 0 1 Reserved 6-3 - The value read from this bit is indeterminate. ...

Page 23

Table 6. Auxiliary Register 1 AUXR1- (0A2h) for AT8xC5122 ENBOOT Bit Bit Number Mnemonic Description Reserved The value read from this bit is indeterminate. Do not change these bits. Enable ...

Page 24

AT8xC5122’s CRAM and E2PROM Versions AT83R5122, AT8xC5122/23 24 Table 8. CRAM Configuration Register - RCON (D1h Bit Bit Number Mnemonic Description Reserved The value read from this bit is indeterminate. ...

Page 25

... Programming (ISP) mode which manages the transfer of the code in the volatile Pro- gram Memory (CRAM). For CRAM version, the code is supplied by the ATMEL’s FLexible In-system Program- ming software (FLIP) through USB or UART interface For E2PROM version, the code is supplied from the internal code E2PROM or by FLIP. ...

Page 26

Using CRAM Memory AT83R5122, AT8xC5122/23 26 The CRAM is a read / write volatile memory that is mapped in the program memory space. Then when the power is switched off the code is lost and needs to be reload at ...

Page 27

Figure 12. AT8xC5122’s CRAM and E2PROM Versions (E2PROM version) FFFF 32K INTERNAL Reset@ E2PROM (Read/Write) 8000 PROGRAM MEMORY DATA MEMORY (Read / Write) 4202F–SCR–07/2008 ENBOOT=0 ENBOOT=1 FFFF FFFF <F800> 32K INTERNAL EXTERNAL ROM PROGRAM MEMORY (Read Only) ...

Page 28

AT83R5122, AT8xC5122’s ROM Version Security Level AT83R5122, AT8xC5122/23 28 The AT83R5122, AT8xC5122’s ROM version implements : - ROM mapped from 0000h to 7FFFh in which is embedded the user code. The ROM device is only factory programmable. ...

Page 29

Figure 13. AT83R5122, AT8xC5122’s ROM Version PROGRAM MEMORY (Read only) 7FFF 0000 DATA MEMORY (Read / Write) 01FF 0000 4202F–SCR–07/2008 EA=1 EA=0 FFFF EXTERNAL 8000 Roll-Over INTERNAL EXTERNAL 32K ROM RESET@ <0000> PSEN EXTRAM=1 EXTRAM=0 FFFF EXTERNAL XRAM 0200 Roll-Over ...

Page 30

AT83C5123 Version Figure 14. AT83C5123’s Device PROGRAM MEMORY (Read only) RESET@ <0000> OPTIONAL DATA MEMORY (Read / Write) AT83R5122, AT8xC5122/23 30 The AT83C5123 device is a low pin count version of the AT8xC5122. The ROM version implements : - 30 ...

Page 31

Special Function Registers (SFR’s) Introduction 4202F–SCR–07/2008 The Special Function Registers (SFRs) of the AT8xC5122/23 can be ranked into the fol- lowing categories: • C51 Core Registers: ACC, B, DPH, DPL, PSW, SP • System Configuration Registers: PCON, CKRL, CKCON0, CKCON1, ...

Page 32

AT8xC5122 Version Bit addressable 0/8 1/9 UEPINT F8h 0000 0000 LEDCON0 B F0h 0000 0000 0000 0000 P5 E8h 1111 1111 LEDCON1 ACC E0h 0000 0000 XX00 0000 D8h RCON PSW D0h 0000 0000 XXXX 0XXX C8h SCICLK S 1 ...

Page 33

AT83C5123 Version Bit addressable 0/8 1/9 UEPINT F8h 0000 0000 LEDCON0 B F0h 0000 0000 0000 0000 P5 E8h XXXX XXX1 ACC E0h 0000 0000 D8h PSW D0h 0000 0000 C8h SCICLK S 1 0X10 1111 P4 C C0h R ...

Page 34

SFR’s Description Table 10. C51 Core SFRs Mnemonic Add Name ACC E0h Accumulator B F0h B Register PSW D0h Program Status Word SP 81h Stack Pointer Data Pointer Low byte (LSB DPL 82h of DPTR) Data Pointer High byte DPH ...

Page 35

Table 13. Timers SFRs Mnemonic Add Name TH0 8Ch Timer/Counter 0 High byte TL0 8Ah Timer/Counter 0 Low byte TH1 8Dh Timer/Counter 1 High byte TL1 8Bh Timer/Counter 1 Low byte Timer/Counter 0 and 1 TCON 88h control Timer/Counter 0 ...

Page 36

Table 17. Interrupt SFRs Mnemonic Add Name Interrupt Priority Control IPH0 B7h High 0 Interrupt Priority Control IPL1 B2h Low 1 Interrupt Priority Control IPH1 B3h High 1 ISEL A1h Interrupt Enable Register Table 18. SCIB SFRs Mnemonic Add Name ...

Page 37

Table 18. SCIB SFRs Mnemonic Add Name Smart Card Frequency SCICLK C1h Prescaler Register Table 19. DC/DC SFRs Mnemonic Add Name DC/DC Converter Reload DCCKPS BFh Register Table 20. Keyboard SFRs Mnemonic Add Name (1) KBF 9Eh Keyboard Flag Register ...

Page 38

Table 22. USB SFRs Mnemonic Add Name USB Endpoint Interrupt UEPIEN C2h Enable UEPDATX CFh USB Endpoint X Fifo Data USB Byte Counter Low UBYCTX E2h (EPX) UFNUML BAh USB Frame Number Low UFNUMH BBh USB Frame Number High Table ...

Page 39

Clock Controller On-Chip Oscillator Quartz Specification 4202F–SCR–07/2008 The clock controller is based on an on-chip oscillator feeding an on-chip Phase Lock Loop (PLL). All the internal clocks to the CPU core and peripherals are generated by this controller. The on-chip ...

Page 40

Phase Lock Loop (PLL) PLL Description CK_XTAL1 PLL Programming AT83R5122, AT8xC5122/23 40 The AT83R5122, AT8xC5122/23’s PLL is used to generate internal high frequency clock synchronized with an external low-frequency. Figure 16 shows the internal struc- ture of the PLL. The ...

Page 41

Clock Tree Architecture 4202F–SCR–07/2008 Figure 18. PLL Programming Flow PLL Programming Configure Dividers xxxxb N3:0= xxxxb R3:0= Enable PLL PLLEN= 1 PLL Locked? PLOCK= 1? The clock controller outputs several different clocks as shown in Figure 19: • a clock ...

Page 42

Figure 19. Clock Tree Diagram CK_XTAL1 XTAL1 XTAL2 PD PCON.1 CPU and Peripheral Clocks AT83R5122, AT8xC5122/23 42 PR4 DCCKPS[3:0] CK_XTAL1 0 PR1 CK_PLL 1 CKRL[3:0] CKS CKSEL.0 PLL CK_PLL 96 MHz PLLEN PLLCON.1 XTSCS SCICLK.7 EXT48 PLLCON.2 1/2 Two clocks ...

Page 43

X1 and X2 Modes 4202F–SCR–07/2008 The CPU and peripherals clocks frequencies are defined in the table below. CKS Use of on-chip oscillator When the CPU and Peripherals clocks are fed by ...

Page 44

AT83R5122, AT8xC5122/23 44 Figure 20. X1 mode PR1 prescaler Crystal 1/2 8 MHz When the X1 mode is selected, the CPU and Peripherals work at 8Mhz / X1 Figure 21. X2 mode Crystal 8 MHz Internal Prescaler 1/2 When the ...

Page 45

Use of PLL Clock 4202F–SCR–07/2008 Crystal PR1 Prescaler 1/8 8 MHz External Clock X1 mode selected 1/2 2 MHz External Clock X2 mode selected 1 MHz When the CPU clock is fed by the PLL, the X2 mode is forbidden. ...

Page 46

SCIB Clock AT83R5122, AT8xC5122/23 46 PLL Prescaler 1/4 96 MHz X1 mode selected External Clock 1/2 48 MHz External Clock X2 mode selected 24 MHz The Smart Card Interface Block (SCIB) uses two clocks : – The first one, CK_IDLE, ...

Page 47

Alternate Card Clock DC/DC Converter Clock 4202F–SCR–07/2008 If the CK_CPU <= 4/3 * CK_ISO, the SCIB doesn’t work. If the CK_CPU >= 6* CK_ISO, the programmer must take care of three cases: • Read (or write) operation on a SCIB ...

Page 48

USB Interface Clock Registers AT83R5122, AT8xC5122/23 48 The USB Interface uses two clocks : – The first one is the CPU clock used for the interface with the microcontroller, CK_IDLE. – The second one is the CK_USB supplied from the ...

Page 49

Table 26. Clock Configuration Register 0 - CKCON0 (S:8Fh WDX2 - Bit Number Bit Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not set this bit. Watchdog clock This ...

Page 50

AT83R5122, AT8xC5122/23 50 Table 27. Clock Configuration Register 1 - CKCON1 (S:AFh) only for AT8xC5122 Bit Number Bit Mnemonic Description Reserved The value read from this bit is indeterminate. Do ...

Page 51

I/O Port Definition Ports vs Packages Port 0 4202F–SCR–07/2008 Table 30. I/O Number vs Packages P0 P1 VQFP64 8 8 QFN64 VQFP32 - 8 QFN32 PLCC28 - 6 Port 0 has the following functions: – Default function: Port 0 is ...

Page 52

Port 1 Alternate Function Port Signal Description Smart card interface function CIO Card I/O Smart card interface function CC8 Card contact 8 Smart card interface function P1.2 CPRES Card presence Smart card interface function CC4 Card contact 4 Smart card ...

Page 53

Port 3 Alternate Functions Port Signal Description Receiver data input (asynchronous) or data input/output P3.0 RxD (synchronous) of the serial interface Transmitter data output (asynchronous) or clock output P3.1 TxD (synchronous) of the serial interface P3.2 INT0 External interrupt 0 ...

Page 54

Port 4 Port 5 AT83R5122, AT8xC5122/23 54 Port 4 has the following functions: – Default function: Port 6-bit I/O port. – Alternate functions: see table below Port 4 has the following configurations: – Default configuration: Pseudo bi-directional ...

Page 55

Port Configuration Standard I/O P0 Quasi Bi-directional Port 4202F–SCR–07/2008 The P0 port is described in Figure 22. Figure 22. Standard Input/Output Port ADDR/DATA CONTROL Port latch Data Input Data The default port output configuration for standard I/O ports is the ...

Page 56

Push-pull Output Configuration Input with Medium or Weak Pull-up Configuration AT83R5122, AT8xC5122/23 56 The “Port51” is described in Figure 23. Figure 23. Quasi Bi-directional Port 2 CPU CLOCK DELAY Port Latch Data Input Data The push-pull output configuration has the ...

Page 57

Input with Weak Pull-down Configuration Low Speed Output Configuration LED Source Current 4202F–SCR–07/2008 Figure 25. Input with Pull-up Stuck Medium Stuck Weak Input Data The input with pull-down (input WPD) configuration is shown in ...

Page 58

AT83R5122, AT8xC5122/23 58 Figure 28. LED Source Current LEDx.0 Port Latch Data LEDx.1 Notes: 1. When switching a low level, LEDCTRL device has a permanent current of about N mA/ 8). 2. The port must ...

Page 59

Registers 4202F–SCR–07/2008 Table 36. Port Mode Register 0 - PMOD0 (91h) for AT8xC5122 P3C1 P3C0 P2C1 Bit Number Bit Mnemonic Description Port 3 Configuration bits (Applicable to P3.0, P3.1, P3.3, P3.4 only) 00 Quasi bi-directional 7 - ...

Page 60

AT83R5122, AT8xC5122/23 60 Table 38. Port Mode Register 1 - PMOD1 (84h) for AT8xC5122 P5HC1 P5HC0 P5MC1 Bit Number Bit Mnemonic Description Port 5 High Configuration bits (Applicable from P5.6 to P5.7 only) 00 Quasi bi-directional 7 ...

Page 61

Table 40. LED Port Control Register 0 - LEDCON0 (F1h LED3.1 LED3.0 LED2.1 Bit Number Bit Mnemonic Description Port LED3 Configuration bits 00 LED control disabled LED3 current source when ...

Page 62

Smart Card Interface Block (SCIB) AT83R5122, AT8xC5122/23 62 The SCIB provides all signals to interface directly with a smart card. The compliance with the ISO7816, EMV’2000, GSM and WHQL standards has been certified. Both synchronous (e.g. memory card) and asynchronous ...

Page 63

Block Diagram Definitions Terminal and ICC ETU T=0 T=1 Activation: Cold Reset Activation: Warm Reset De-Activation 4202F–SCR–07/2008 The Smart Card Interface Block diagram is shown Figure 29: Figure 29. SCIB Block Diagram Barrel shifter Clk_iso Clk_cpu Etu counter Guard time ...

Page 64

ATR F and D Guard Time Extra Guard Time Block Guard Time Work Waiting Time (WWT) Character Waiting Time (CWT) In T=1 protocol CWT is the interval between the leading edge of 2 consecutive charac- Block Waiting Time (BWT) Waiting ...

Page 65

Functional Description Barrel Shifter SCART FSM ETU Counter Guard Time Counter 4202F–SCR–07/2008 IEC7816-3 says this procedure is mandatory in ATR for card supporting T=0 while EMV says this procedure is mandatory for T=0 but does not apply for ATR. The ...

Page 66

Block Guard Time Counter AT83R5122, AT8xC5122/23 66 The Guard Time counter bit counter It is initialized at 001h at the start of a trans- mission by the Terminal. It then increments itself at each ETU until it ...

Page 67

ETU Counter Enable transmit Waiting Time (WT) Counter 4202F–SCR–07/2008 Figure 31. Block Guard Time. RECEPTION from ICC CHAR n CHAR 1 CHAR 2 >= Block Guard Time Write “Block Guard Time” in SCGT1,0 and set BGTEN to transfer the value ...

Page 68

Figure 33. Waiting Time Counter ETU Counter WTEN Write_SCWT2 UART Start Bit AT83R5122, AT8xC5122/23 68 When the WT counter times out, an interrupt is generated and the SCIB function is locked: reception and emission are disabled. It can be enabled ...

Page 69

Figure 34. T=0 mode > GT CHAR 1 CHAR 2 < T=1 protocol : The maximum interval between the leading edge of the start bit of 2 consecutive characters sent by the ICC is called maximum Character ...

Page 70

Power-on and Power-off FSM AT83R5122, AT8xC5122/23 70 The Power-on Power-off Finite State Machine (FSM) applies the signals on the smart card in accordance with ISO7816-3 standard. It conducts the Activation (Cold Reset and Warm Reset as well as De-Activation) it ...

Page 71

Interrupt Generator 4202F–SCR–07/2008 Removal of the smart card will automatically start the power off sequence as described in Figure 38. The SCIB deactivation sequence after a reset of the CPU or after a lost of power supply is ISO7816-3 compliant. ...

Page 72

Additional Features Clock XTAL1 (MHz) EXT48 Card Presence Input AT83R5122, AT8xC5122/23 72 The CK_ISO input must be in the range MHz according to ISO 7816. The CK_ISO can be programmed up ...

Page 73

Transmit / Receive Buffer 4202F–SCR–07/2008 The contents of the SCIBUF Transmit / Receive Buffer is transferred or received into / from the Shift Register. The Shift Register is not accessible by microcontroller. Its role is to prepare the byte to ...

Page 74

Transmitted Character AT83R5122, AT8xC5122/23 74 Figure 42. CharacterTransmission Diagram SCISR register SCTBE SCIBUF SCTBI SCIIR register SCTC Shift Register I/O pin ESCTBI ESCTI SCTI SCPE Parity error Parity error SCPI 4202F–SCR–07/2008 ...

Page 75

SCIB Reset Register Name SCICR SCCON SCISR SCIIR SCIER SCSR SCIBUF SCETU1, SCETU0 SCGT1, SCGT0 SCWT3, SCWT2, SCWT1, SCWT0 SCICLK 4202F–SCR–07/2008 Figure 43. Character Reception Diagram SCISR register SCTBE Shift Register I/O pin SCTBI SCIIR register The SCICR register contains ...

Page 76

Alternate Card Registers AT83R5122, AT8xC5122/ second card named ‘Alternate Card’ can be controlled. The Clock signal CCLK1 can be adapted to the XTAL frequency. Thanks to the clock prescaler which can divide the frequency ...

Page 77

Table 44. Smart Card Interface Control Register - SCICR (S:B6h, SCRS = RESET CARDDET Bit Number Bit Mnemonic Description Reset Set this bit to reset and deactivate the Smart Card Interface. 7 RESET Clear this bit to ...

Page 78

Table 45. Smart Card Contacts Register - SCCON (S:ACh, SCRS= CLK - Bit Number Bit Mnemonic 7 CLK CARDC8 4 CARDC4 3 CARDIO 2 CARDCLK 1 CARDRST 0 CARDVCC Reset Value = 0X00 0000b AT83R5122, ...

Page 79

Table 46. Smart Card UART Interface Status Register - SCISR (S:ADh, SCRS= SCTBE CARDIN Bit Number Bit Mnemonic Description UART Transmit Buffer Empty Status This bit is set by hardware when the Transmit Buffer is copied to the ...

Page 80

Table 47. Smart Card UART Interrupt Identification Register (Read Only) SCIIR (S:AEh, SCRS= SCTBI - ICARDERR Bit Number Bit Mnemonic 7 SCTBI ICARDERR 4 VCARDERR 3 SCWTI 2 SCTI 1 SCRI 0 SCPI Reset Value ...

Page 81

Table 48. Smart Card UART Interrupt Enabling Register - SCIER (S:AEh, SCRS= ESCTBI - ICARDER Bit Number Bit Mnemonic 7 ESCTBI ICARDER 4 EVCARDER 3 ESCWTI 2 ESCTI 1 ESCRI 0 ESCPI Reset Value = ...

Page 82

Table 49. Smart Card Selection Register - SCSR (S:ABh BGTEN Bit Number Bit Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not change this bit. Block Guard Time Enable Set this ...

Page 83

Table 51. Smart Card ETU Register 1 - SCETU1 (S:ADh, SCRS= COMP - Bit Number Bit Mnemonic Description Compensation Clear this bit when no time compensation is needed (i.e. when the ETU to Card CLK period ratio is ...

Page 84

Table 53. Smart Card Transmit Guard Time Register 0 - SCGT0 (S:B4h, SCRS= GT7 GT6 Bit Number Bit Mnemonic Description Transmit Guard Time LSB The minimum time between two consecutive start bits in transmit mode is GT[8:0] * ...

Page 85

Table 56. Smart Card Character/Block Waiting Time Register 2 SCWT2 (S:B6h, SCRS= WT23 WT22 Bit Number Bit Mnemonic Description Waiting Time Byte2 WT[23:16] Used together with WT[31:24] and WT[15:0] in registers SCWT3,SCWT1, SCWT0 (see Table ...

Page 86

Table 59. Smart Card Clock Reload Register - SCICLK (S:C1h, SCRS= XTSCS - Bit Number Bit Mnemonic 7 XTSCS SCICLK[5:0] Reset Value = 0X10 1111b (default value for a divider by two) DC/DC ...

Page 87

Initialization Procedure Procedure for CVcc =< 3 volts 4202F–SCR–07/2008 mode by 20% by means of bit OVFADJ in DCCKPS register. When the current overflow controller is operating, the ICARDOVF is set by the hardware in SCISR register. The current drawn ...

Page 88

AT83R5122, AT8xC5122/23 88 Figure 45. Card Vcc = 1.8V Initialization Procedure SCICR.7=Reset=1 SCICR.7=Reset=0 VCARD[1: Mode Regulation DCCKPS[7]=1 BOOST[1:0]=01 SCCON CardVcc=1 Set Timeout VCARDOK=1 DC/DC Initialization DC/DC Initialization successful Timeout Expired Failure 4202F–SCR–07/2008 ...

Page 89

Figure 46. Card Vcc = 3V Initialization Procedure SCICR.7=Reset=1 SCICR.7=Reset=0 VCARD[1: Mode Regulation DCCKPS[7]=1 BOOST[1:0]=01 SCCON CardVcc=1 Set Timeout VCARDOK=1 DC/DC Initialization AT83R5122, AT8xC5122/23 DC/DC Initialization successful Timeout Expired Failure 89 ...

Page 90

Procedure for CVcc = 5volts AT83R5122, AT8xC5122/23 90 The DC/DC pump mode must be selected (MODE = 0 in DCCKPS register). The detailed procedure is described in flow chart of Figure 47. Figure 47. Card Vcc = 5V Initialization Procedure ...

Page 91

Monitoring Procedure Table 60. DC/DC converter status VCARDOK ICARDOVF 4202F–SCR–07/2008 advised to decrement the BOOST[1:0] bits to restore the overflow current to its normal or desired value. Once the DC/DC has been successfuly initialized ...

Page 92

DC/DC Converter register Table 61. DC/DC Converter Control Register - DCCKPS (S:BFh MODE OVFADJ Bit Number Bit Mnemonic 7 MODE 6 OVFADJ BOOST[1: DCCKPS[3:0] Reset Value = 0000 0000b AT83R5122, AT8xC5122/23 92 ...

Page 93

USB Controller USB Mass Storage Classes USB Mass Storage Class CBI Transport USB Mass Storage Class Bulk- Only Transport USB Device Firmware Upgrade (DFU) 4202F–SCR–07/2008 The AT8xC5122D implements a USB device controller supporting Full Speed data transfer. In addition to ...

Page 94

Description D+ D- Serial Interface Engine (SIE) AT83R5122, AT8xC5122/23 94 The only possible value for the wMaxPacketSize in the DFU configuration is 32 bytes, which is the size of the FIFO implemented for endpoint 0. The USB device controller provides ...

Page 95

Function Interface Unit (UFI) DPLL 4202F–SCR–07/2008 Figure 49. SIE Block Diagram End of Packet Detection Start of Packet Detection D+ D- Clock Recovery Clk48 (48 MHz) The Function Interface Unit provides the interface between the AT8xC5122D (or AT83C5123) and the ...

Page 96

OUT Transactions: HOST OUT DATA0 (n Bytes) UFI C51 IN Transactions: HOST IN UFI C51 AT83R5122, AT8xC5122/23 96 Figure 51. Minimum Intervention from the USB Device Firmware OUT ACK interrupt C51 Endpoint FIFO read (n bytes) IN DATA1 NACK Endpoint ...

Page 97

Configuration General Configuration Endpoint Configuration UEPSTA0 Endpoint 0 UEPSTA6 Endpoint 6 4202F–SCR–07/2008 • USB controller enable Before any USB transaction, the 48 MHz required by the USB controller must be cor- rectly generated (Section "Clock Controller", page 39). The USB ...

Page 98

AT83R5122, AT8xC5122/23 98 • Endpoint enable Before using an endpoint, this one should be enabled by setting the EPEN bit in the UEPCONX register. An endpoint which is not enabled won’t answer to any USB request. The Default Control Endpoint ...

Page 99

Endpoint FIFO reset Before using an endpoint, its FIFO should be reset. This action resets the FIFO pointer to its original value, resets the byte counter of the endpoint (UBYCTX register), and resets the data toggle bit (DTGL ...

Page 100

Read/Write Data FIFO Read Data FIFO Write Data FIFO AT83R5122, AT8xC5122/23 100 The read access for each OUT endpoint is performed using the UEPDATX register. After a new valid packet has been received on an Endpoint, the data are stored ...

Page 101

Bulk / Interrupt Transactions Bulk/Interrupt OUT Transactions in Standard Mode 4202F–SCR–07/2008 Bulk and Interrupt transactions are managed in the same way. Figure 54. Bulk/Interrupt OUT transactions in Standard Mode HOST OUT DATA0 (n bytes) OUT DATA1 OUT DATA1 DATA1 OUT ...

Page 102

Bulk/Interrupt OUT Transactions in Ping-Pong Mode (Endpoints 6) AT83R5122, AT8xC5122/23 102 Figure 55. Bulk / Interrupt OUT Transactions in Ping-Pong Mode HOST OUT DATA0 (n bytes) DATA1 (m bytes) OUT OUT DATA0 (p bytes) An endpoint should be first enabled ...

Page 103

Bulk/Interrupt IN Transactions In Standard Mode 4202F–SCR–07/2008 If the Host sends more bytes than supported by the endpoint FIFO, the overflow data won’t be stored, but the USB controller will consider that the packet is valid if the CRC is ...

Page 104

Bulk/Interrupt IN Transactions in Ping-Pong Mode AT83R5122, AT8xC5122/23 104 Figure 57. Bulk / Interrupt IN transactions in Ping-Pong mode HOST UFI IN NACK IN DATA0 (n Bytes) ACK IN DATA1 (m Bytes) ACK IN DATA0 (p Bytes) ACK An endpoint ...

Page 105

Control Transactions Setup Stage Data Stage: Control Endpoint Direction Status Stage 4202F–SCR–07/2008 The DIR bit in the UEPSTAX register should Receiving Setup packets is the same as receiving Bulk Out packets, except that the Rxsetup bit in ...

Page 106

Isochronous Transactions Isochronous OUT Transactions in Standard Mode Isochronous OUT Transactions in Ping-pong Mode AT83R5122, AT8xC5122/23 106 An endpoint should be first enabled and configured before being able to receive Isochro- nous packets. When an OUT packet is received on ...

Page 107

Isochronous IN Transactions in Standard Mode Isochronous IN Transactions in Ping-Pong Mode 4202F–SCR–07/2008 If the Host sends more bytes than supported by the endpoint FIFO, the overflow data won’t be stored, but the USB controller will consider that the packet ...

Page 108

Miscellaneous USB Reset STALL Handshake Start of Frame Detection Frame Number Data Toggle Bit NAK Handshakes AT83R5122, AT8xC5122/23 108 The EORINT bit in the USBINT register is set by hardware when a End of Reset has been detected on the ...

Page 109

Suspend/Resume Management Suspend Resume 4202F–SCR–07/2008 The Suspend state can be detected by the USB controller if all the clocks are enabled and if the USB controller is enabled. The bit SPINT is set by hardware when an idle state is ...

Page 110

Detection of a SUSPEND State Detection of a RESUME State Note : WUPCPU bit must be Cleared before enabling the PLL Upstream Resume AT83R5122, AT8xC5122/23 110 Figure 58. Example of a Suspend/Resume Management SPINT microcontroller in power-down WUPCPU Warning: The ...

Page 111

SET_FEATURE: DEVICE_REMOTE_WAKEUP Detection of a SUSPEND state 4202F–SCR–07/2008 Figure 59. Example of REMOTE WAKEUP Management SPINT UPRSM = 1 UPRSM upstream RESUME sent AT83R5122, AT8xC5122/23 USB Controller Init Set RMWUPE Suspend management Need USB Resume Enable Clocks Clear SPINT Set ...

Page 112

Detach Simulation AT83R5122, AT8xC5122/23 112 In order to be re-enumerated by the Host, the AT83R5122, AT8xC5122/23 has the pos- sibility to simulate a DETACH-ATTACH of the USB bus. The V output voltage is between 3.0V and 3.6V. This output can ...

Page 113

USB Interrupt System Interrupt System Priorities Figure 62. USB Interrupt Control System D+ USB Controller D- Interrupt Control System 4202F–SCR–07/2008 EUSB EA IEN1.6 IEN0.7 Interrupt Enable Table 63. Priority Levels IPHUSB IPLUSB shown in Figure ...

Page 114

Figure 63. USB Interrupt Control Block Diagram Endpoint 0..6) TXCMP UEPSTAX.0 RXOUTB0 UEPSTAX.1 RXOUTB1 UEPSTAX.6 RXSETUP UEPSTAX.2 STLCRC UEPSTAX.3 NAKOUT UEPCONX.5 NAKIN UEPCONX.4 NAKIEN UEPCONX.6 WUPCPU USBINT.5 EWUPCPU USBIEN.5 EORINT USBINT.4 EEORINT USBIEN.4 SOFINT USBINT.3 ESOFINT USBIEN.3 ...

Page 115

Registers 4202F–SCR–07/2008 Table 64. USB Global Control Register - USBCON (S:BCh USBE SUSPCLK SDRMWUP Bit Bit Number Mnemonic Description USB Enable Set this bit to enable the USB controller. 7 USBE Clear this bit to disable and ...

Page 116

AT83R5122, AT8xC5122/23 116 Table 65. USB Global Interrupt Register - USBINT (S:BDh WUPCPU Bit Bit Number Mnemonic Description Reserved The value read from these bits is always 0. Do not change ...

Page 117

Table 66. USB Global Interrupt Enable Register - USBIEN (S:BEh EWUPCPU Bit Bit Number Mnemonic Description Reserved The value read from these bits is always 0. Do not change these ...

Page 118

Table 68. USB Endpoint Number - UEPNUM (S:C7h Bit Number Bit Mnemonic Description Reserved The value read from these bits is always 0. Do not change these bits. Endpoint Number Set this ...

Page 119

Table 70. USB Endpoint Status and Control Register X - UEPSTAX (S:CEh) X=EPNUM set in UEPNUM Register DIR RXOUTB1 Bit Bit Number Mnemonic Description Control Endpoint Direction This bit is used only if the endpoint is configured in ...

Page 120

AT83R5122, AT8xC5122/23 120 Table 71. USB FIFO Data Endpoint X (X=EPNUM set in UEPNUM Register) - UEPDATX (S:CFh FDAT7 FDAT6 FDAT5 Bit Bit Number Mnemonic Description Endpoint X FIFO data FDAT [7:0] Data byte ...

Page 121

Table 73. USB Endpoint FIFO Reset Register - UEPRST (S:D5h EP6RST EP5RST Bit Bit Number Mnemonic Description Reserved 7 - The value read from these bits is always 0. Do not change this bit. Endpoint ...

Page 122

AT83R5122, AT8xC5122/23 122 Table 74. USB Endpoint Interrupt Register - UEPINT (S:F8h read-only EP6INT EP5INT Bit Bit Number Mnemonic Description Reserved 7 - The value read from these bits is always 0. Do not change this ...

Page 123

Table 75. USB Endpoint Interrupt Enable Register - UEPIEN (S:C2h EP6INTE EP5INTE Bit Number Bit Mnemonic Description Reserved 7 - The value read from these bits is always 0. Do not change this bit. Endpoint ...

Page 124

Serial I/O Port Framing Error Detection AT83R5122, AT8xC5122/23 124 The serial I/O port in the AT83R5122, AT8xC5122/23 is compatible with the serial I/O port in the 80C52. The I/O port provides both synchronous and asynchronous communication modes. It operates as ...

Page 125

Automatic Address Recognition Given Address 4202F–SCR–07/2008 Figure 66. UART Timings in Modes 2 and 3 RXD D0 Start bit RI SMOD0=0 RI SMOD0=1 FE SMOD0=1 The automatic address recognition feature is enabled when the multiprocessor commu- nication feature is enabled ...

Page 126

Broadcast Address Reset Addresses Timer 1 AT83R5122, AT8xC5122/23 126 The SADEN byte is selected so that each slave may be addressed separately. For slave A, bit 0 (the LSB don’t care bit; for slaves B and C, bit ...

Page 127

CK_ T1 T1 INT1# GATE1 TMOD.7 Internal Baud Rate Generator CK_ SI Synchronous Mode (Mode 0) 4202F–SCR–07/2008 Figure 67. Timer 1 Baud Rate Generator Block Diagram / C/T1# TMOD.6 TR1 TCON.6 When using the Internal Baud Rate ...

Page 128

Transmission (Mode 0) Reception (Mode 0) AT83R5122, AT8xC5122/23 128 Figure 69. Serial I/O Port Block Diagram (Mode 0) SCON.6 SCON.7 SM1 SM0 Mode Decoder Mode Controller CK_ TI RI SCON.1 SCON.0 IBRG CLOCK To start a ...

Page 129

Baud Rate Selection (Mode 0) Asynchronous Modes (Modes 1, 2 and 3) T1 CLOCK IBRG CLOCK CK_ SI Mode 1 4202F–SCR–07/2008 In mode 0, baud rate can be either fixed or variable. As shown in Figure 72, the selection is ...

Page 130

Modes 2 and 3 Modes 2 and 3 Transmission (Modes 1, 2 and 3) Reception (Modes 1, 2 and 3) Framing Error Detection (Modes 1, 2 and 3) AT83R5122, AT8xC5122/23 130 Figure 75. Data Frame Format (Mode 1) Mode 1 ...

Page 131

Baud Rate Selection (Modes 1 and 3) T1 CLOCK IBRG CLOCK BDRCON.2 4202F–SCR–07/2008 In modes 1 and 3, the Baud Rate is derived either from the Timer 1 or the Internal Baud Rate Generator and allows different baud rate in ...

Page 132

Table 76. Internal Baud Rate Generator Value MHz CK_IDLE Baud Rate SPD SMOD1 BRL 115200 1 1 57600 1 1 38400 1 1 19200 1 1 9600 1 1 4800 MHz CK_IDLE ...

Page 133

Registers 4202F–SCR–07/2008 Table 77. Serial Control Register - SCON (98h FE/SM0 SM1 SM2 Bit Bit Number Mnemonic Description Framing Error bit (SMOD0=1) Clear to reset the error state, not cleared by a valid stop bit. FE Set ...

Page 134

AT83R5122, AT8xC5122/23 134 Table 78. Slave Address Mask Register for UART - SADEN (B9h Reset Value = 0000 0000b Table 79. Slave Address Register for UART - SADDR (A9h Reset Value = 0000 0000b ...

Page 135

Serial Port Interface (SPI) Features Signal Description Master Output Slave Input (MOSI) Master Input Slave Output (MISO) SPI Serial Clock (SCK) 4202F–SCR–07/2008 Only for AT8xC5122. The Serial Peripheral Interface module (SPI) which allows full-duplex, synchronous, serial communication between the MCU ...

Page 136

Slave Select (SS) Baud Rate AT83R5122, AT8xC5122/23 136 Each Slave peripheral is selected by one Slave Select pin (SS). This signal must stay low for any message for a Slave. Only one Master (SS high level) can drive the network. ...

Page 137

Functional Description Operating Modes 4202F–SCR–07/2008 Figure 83 shows a detailed structure of the SPI module. Figure 83. SPI Module Block Diagram IntClk /4 Clock /8 /16 Divider /32 /64 /128 Clock Select SPR2 SPEN SSDIS SPI Interrupt Request The Serial ...

Page 138

Master Mode Slave Mode Transmission Formats AT83R5122, AT8xC5122/23 138 Figure 84. Full-duplex Master-Slave Interconnection MISO 8-bit Shift Register MOSI SPI SCK Clock Generator SS Master MCU The SPI operates in Master mode when the Master bit, MSTR is set. Only ...

Page 139

SCK Cycle Number SPEN (internal) SCK (CPOL = 0) SCK (CPOL = 1) MOSI (from Master) MISO (from Slave) SS (to Slave) Capture Point SCK Cycle Number SPEN (internal) SCK (CPOL = 0) SCK (CPOL = 1) MOSI (from Master) ...

Page 140

Error Conditions Mode Fault (MODF) Write Collision (WCOL) Overrun Condition SS Error Flag ( SSERR ) Interrupts AT83R5122, AT8xC5122/23 140 sions (Figure 87). This format may be preferable in systems having only one Master and only one Slave driving the ...

Page 141

Registers Serial Peripheral Control Register (SPCON) 4202F–SCR–07/2008 Mode Fault flag, MODF: This bit becomes set to indicate that the level on the SS is inconsistent with the mode of the SPI. MODF with SSDIS reset, generates receiver/error CPU interrupt requests. ...

Page 142

AT83R5122, AT8xC5122/23 142 Table 85. Serial Peripheral Control Register - SPCON (C3h SPR2 SPEN SSDIS Bit Bit R/W Number Mnemonic Mode Description Serial Peripheral Rate 2 7 SPR2 RW Bit with SPR1 and SPR0 define the clock ...

Page 143

Serial Peripheral Status Register (SPSTA) 4202F–SCR–07/2008 Serial Peripheral Status Register contains flags to signal the following The conditions: • Data transfer complete • Write collision • Inconsistent logic level on SS pin (mode fault error) Table 86. Serial Peripheral Status ...

Page 144

Serial Peripheral DATa Register (SPDAT) AT83R5122, AT8xC5122/23 144 The Serial Peripheral Data Register (Table 87 read/write buffer for the receive data register. A write to SPDAT places data directly into the shift register. No transmit buffer is available ...

Page 145

Timers/Counters Timer/Counter Operations Timer 0 4202F–SCR–07/2008 The AT8xC5122D implements two general-purpose, 16-bit Timers/Counters. Although they are identified as Timer 0, Timer 1, you can independently configure each to operate in a variety of modes as a Timer ...

Page 146

Mode 0 (13-bit Timer) CK_Tx Tx INTx# GATEx TMOD reg Mode 1 (16-bit Timer) AT83R5122, AT8xC5122/23 146 For normal Timer operation (GATE0= 0), setting TR0 allows TL0 to be incremented by the selected input. Setting GATE0 and TR0 allows external ...

Page 147

CK_Tx Tx INTx# GATEx TMOD reg Mode 2 (8-bit Timer with Auto- Reload) CK_Tx Tx INTx# GATEx TMOD reg 4202F–SCR–07/2008 Figure 91. Timer/Counter Mode C/Tx# TMOD reg TRx TCON ...

Page 148

Mode 3 (Two 8-bit Timers) CK_T0 /6 T0 INT0# GATE0 TMOD.3 CK_T0 Timer 1 AT83R5122, AT8xC5122/23 148 Mode 3 configures Timer 0 so that registers TL0 and TH0 operate as 8-bit Timers (see Figure 95). This mode is provided for ...

Page 149

Mode 0 (13-bit Timer) Mode 1 (16-bit Timer) Mode 2 (8-bit Timer with Auto- Reload) Mode 3 (Halt) 4202F–SCR–07/2008 • When Timer mode 3, it uses Timer 1’s overflow flag (TF1) and run control bit (TR1). For ...

Page 150

Registers AT83R5122, AT8xC5122/23 150 Timer/Counter Control Register Table 88. TCON (S:88h TF1 TR1 TF0 Bit Bit Number Mnemonic Description Timer 1 Overflow flag 7 TF1 Cleared by the hardware when processor vectors interrupt routine. Set by the ...

Page 151

Table 89. Timer/Counter Mode Control Register - TMOD (S:89h GATE1 C/T1# Bit Number Bit Mnemonic Description Timer 1 Gating Control bit 7 GATE1 Clear to enable Timer 1 whenever TR1 bit is set. Set to enable Timer 1 ...

Page 152

AT83R5122, AT8xC5122/23 152 Table 90. Timer 0 High Byte Register - TH0 (S:8Ch Bit Bit Number Mnemonic Description 7:0 High Byte of Timer 0 Reset Value = 0000 0000b Table 91. Timer 0 Low Byte Register - ...

Page 153

Keyboard Interface Introduction Description Interrupt 4202F–SCR–07/2008 Only for AT8xC5122. The AT83R5122, AT8xC5122/23 implements a keyboard interface allowing the connec- tion matrix keyboard based on 8 inputs with programmable interrupt capability on both high ...

Page 154

Power Reduction Mode Registers AT83R5122, AT8xC5122/23 154 P5 inputs allow exit from idle and power-down modes as detailed in Section "Power- Down Mode". Table 94. Keyboard Flag Register - KBF (9Eh KBF7 KBF6 KBF5 Bit Bit Number ...

Page 155

Table 95. Keyboard Input Enable Register - KBE (9Dh KBE7 KBE6 KBE5 Bit Bit Number Mnemonic Description Keyboard line 7 Enable bit 7 KBE7 Cleared to enable standard I/O pin. Set to enable KBF.7 bit in ...

Page 156

AT83R5122, AT8xC5122/23 156 Table 96. Keyboard Level Selector Register - KBLS (9Ch KBLS7 KBLS6 KBLS5 Bit Bit Number Mnemonic Description Keyboard line 7 Level Selection bit 7 KBLS7 Cleared to enable a low level detection on Port ...

Page 157

Interrupt System Introduction Interrupt System Description 4202F–SCR–07/2008 The AT83R5122, AT8xC5122/23 implements an interrupt controller with 15 inputs but only 9 are used for : – two external interrupts (INT0 and INT1) – two timer interrupts (timers 0, 1), – the ...

Page 158

Figure 99. Interrupt Control System INT0# RXD RXEN ISEL.0 1 INT1 0 OELEV OEEN ISEL.3 ISEL.2 0 CPRES 1 CPLEV PRESEN ISEL.7 ISEL.1 RXD SERIAL INTERFACE CONTROLLER TXD 0 P5.x 1 KBLSx MISO SPI MOSI CONTROLLER SCK SMART CARD CIO ...

Page 159

INT1 Interrupt Vector INT1 Input RXD Input CPRES Input 4202F–SCR–07/2008 The INT1 interrupt is multiplexed with the following three inputs: • INT1 : Standard 8051 interrupt input • RXD : Received data on UART • CPRES: Insertion or remove of ...

Page 160

Registers AT83R5122, AT8xC5122/23 160 Table 98. Interrupt Enable Register 0 - IEN0 (A8h Bit Bit Number Mnemonic Description Enable All interrupt bit 7 EA Cleared to disable all interrupts. Set to enable all interrupts. ...

Page 161

Table 99. Interrupt Enable Register 1 - IEN1 (B1h) for AT8xC5122 EUSB - Bit Bit Number Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not change this bit. USB ...

Page 162

AT83R5122, AT8xC5122/23 162 Table 100. Interrupt Enable Register 1 - IEN1 (B1h) for AT83C5123 EUSB - Bit Bit Number Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not change this ...

Page 163

Table 102. Interrupt Priority High Register 0 - IPH0 (B7h Bit Bit Number Mnemonic Description Reserved The value read from this bit is indeterminate. Do not change these bits. ...

Page 164

AT83R5122, AT8xC5122/23 164 Table 103. Interrupt Priority Low Register 1 - IPL1 (B2h) for AT8xC5122 PUSBL - Bit Bit Number Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not change ...

Page 165

Table 104. Interrupt Priority Low Register 1 - IPL1 (B2h) for AT83C5123 PUSBL - Bit Bit Number Mnemonic Description Reserved 7 - The value read from this bit is indeterminate. Do not change this bit. ...

Page 166

AT83R5122, AT8xC5122/23 166 Table 105. Interrupt Priority High Register 1 - IPH1 (B3h) for AT8xC5122 PUSBH - Bit Bit Number Mnemonic Reserved 7 - The value read from this bit is indeterminate. Do not change this ...

Page 167

Table 106. Interrupt Priority High Register 1 - IPH1 (B3h) for AT83C5123 PUSBH - Bit Bit Number Mnemonic Reserved 7 - The value read from this bit is indeterminate. Do not change this bit. USB ...

Page 168

AT83R5122, AT8xC5122/23 168 Table 107. Interrupt Enable Register - ISEL (S:A1h CPLEV - PRESIT Bit Bit Number Mnemonic Description Card presence detection level This bit indicates which CPRES level will bring about an interrupt Set this bit ...

Page 169

Interrupt Sources and Vectors 4202F–SCR–07/2008 Table 108. Interrupt Vectors Interrupt Source Reset INT0 Timer 0 INT1 Timer 1 UART Reserved Reserved (1) Keyboard Controller Reserved (1) SPI Controller Smart Card Controller Reserved Reserved USB Controller Reserved Note: 1. Only fot ...

Page 170

Microcontroller Reset Introduction AT83R5122, AT8xC5122/23 170 The internal reset is used to start up (cold reset re-start (warm reset) the micro- controller activity. When the reset is applied (active state), all internal registers are initialized so that the ...

Page 171

Power On Reset (POR) Power Fail Detector (PFD) 4202F–SCR–07/2008 The role of the POR is to monitor the power supply rise of the microcontroller core and release the internal reset only when the internal voltage exceeds the VPFDP threshold from ...

Page 172

VCore VPFDP VPFDM Internal Reset 1 0 VCore VPFDP VPFDM Internal Reset 1 0 AT83R5122, AT8xC5122/23 172 Figure 101. Static behaviour of POR and PFD Figure 102. Dynamic behaviour of POR and PFD t<50ns t t>50ns t 4202F–SCR–07/2008 ...

Page 173

Reset pin Long Reset Reset Controlled by the User 4202F–SCR–07/2008 As explained in the POR section there is no need to use the reset pin as the internal reset function at power up is ensured by the POR. Anyway, if ...

Page 174

Reset Controlled by an External Superviser Device AT83R5122, AT8xC5122/23 174 As the reset pin can be forced in output by the Watch-Dog timer (WDT) or the POR/PFD features, there can be a conflict between the external superviser device and the ...

Page 175

Watchdog Timer RESET 4202F–SCR–07/2008 The AT83R5122, AT8xC5122/23 microcontrollers contain a powerfull programmable hardware Watchdog Timer (WDT) that automatically resets the chip if its software fails to reset the WDT before the selected time interval has elapsed. It permits large timeout ...

Page 176

AT83R5122, AT8xC5122/23 176 Table 109. Watchdog Timer Out Register - WDTPRG (0A7h Bit Bit Number Mnemonic Description Reserved The value read from this bit is indeterminate. Do not change these ...

Page 177

Table 111. Timeout value for F CK_WD Table 112. Watchdog Timer Enable register (Write Only) - WDTRST (A6h ...

Page 178

Power Management Idle Mode Power Down Mode AT83R5122, AT8xC5122/23 178 Before activating the Idle Mode or Power Down Mode, the CPU clock must be switched to on-chip oscillator source if the PLL is used to fed the CPU clock. An ...

Page 179

INT0 INT1 XTAL1 Table State of Ports Mode Program Memory ALE Idle Internal 1 Idle External 1 Power-down Internal 0 Power-down External 0 Note: 1. Port 0 can force a 0 level. A "one" will leave port floating. Reduced EMI ...

Page 180

USB Interface Suspend Resume AT83R5122, AT8xC5122/23 180 The Suspend state can be detected by the USB controller if all the clocks are enabled and if the USB controller is enabled. The bit SPINT is set by hardware when an idle ...

Page 181

Detection of a SUSPEND State Detection of a RESUME State Note : WUPCPU bit must be Cleared before enabling the PLL Smart Card Interface Entering in Power-down Mode In order to reduce the power consumption, a power-down or idle mode ...

Page 182

Exiting from Power-down Mode Keyboard Interface Entering in Power-down Mode In order to reduce the power consumption, the microcontroller can be set in power-down Exiting from Power-down Mode Watchdog Timer during Power-down and Idle Mode AT83R5122, AT8xC5122/23 182 The microcontroller ...

Page 183

Registers 4202F–SCR–07/2008 Table 113. Power Control Register - PCON (S:87h SMOD1 SMOD0 - Bit Bit Number Mnemonic Description Serial Port Mode bit 1 for UART 7 SMOD1 Set to select double baud rate in mode 1,2 or ...

Page 184

Electrical Characteristics Absolute Maximum Ratings Ambiant Temperature Under Bias ......................- Storage Temperature .................................... - 150 C Voltage ......................................-0 6. Voltage on Any Pin to ...

Page 185

Symbol Parameter Internal reset pull-up resistor R RST Power down consumption I PD Power Supply current in IDLE mode I CCIDLE Power Supply current in Active mode (AT89C5122) with DC/ CCOP Power Supply current in Active mode (AT85C5122) ...

Page 186

I Current Test Conditions CC LED’s Symbol Parameter I Output Low Current, P3.0 and P3.7 LED modes OL Note - + AT83R5122, AT8xC5122/23 186 Figure 110. Power Down Mode All other ...

Page 187

Smart Card Interface Card VCC 5V (for IEC7816-3 Class A cards) Symbol Parameter Vcc Power Supply CI Card Supply Current overflow CC_ovf CV Card Supply Voltage CC Ripple on Card Voltage CV Card Supply Voltage during spike on Icc CC ...

Page 188

Card VCC 1.8V Power Supply (for IEC7816-3 Class C cards) Symbol Parameter Vcc Power Supply CI Card Supply Current overflow CC_ovf CV Card Supply Voltage CC T CVcc to 0 OFF CVcc ON Notes: 1. Test conditions, ...

Page 189

Smart Card CIO, DC Parameters Symbol Parameter I Output Low Current OL V Output High Voltage OH I Output High Current OH Voltage Stability t t Rise and Fall delays R F Note: 1. The voltage on RST should remain ...

Page 190

USB Interface AT83R5122, AT8xC5122/23 190 Figure 112. USB Interface Symbol Parameter V USB Reference Voltage REF V Input High Voltage for D+ and D- (driven Input High Voltage for D+ and D- (floating) IHZ V Input Low Voltage ...

Page 191

AC Parameters Explanation of the AC Symbols External Program Memory Characteristics 4202F–SCR–07/2008 Each timing symbol has 5 characters. The first character is always a “T” (stands for time). The other characters, depending on their positions, stand for the name of ...

Page 192

External Program Memory Read Cycle ALE PSEN INSTR IN PORT 0 ADDRESS PORT 2 OR SFR-P2 AT83R5122, AT8xC5122/23 192 Table 115. AC Parameters for a Variable Clock Symbol Type T Min LHLL T Min AVLL T Min LLAX T Max ...

Page 193

External Data Memory Characteristics 4202F–SCR–07/2008 Table 116. Symbol Description Symbol Parameter T RD Pulse Width RLRH T WR Pulse Width WLWH Valid Data In RLDV T Data Hold After RD RHDX T Data Float After RD RHDZ ...

Page 194

External Data Memory Write Cycle ALE PSEN WR PORT 0 PORT 2 AT83R5122, AT8xC5122/23 194 Table 117. AC Parameters for a Variable Clock Symbol Type T Min RLRH T Min WLWH T Max RLDV T Min RHDX T Max RHDZ ...

Page 195

External Data Memory Read Cycle ALE PSEN RD PORT 0 PORT 2 Serial Port Timing - Shift Register Mode 4202F–SCR–07/2008 T LLWL T LLAX A0-A7 T AVWL ADDRESS OR SFR-P2 Table 118. Symbol Description ( MHz) Symbol T ...

Page 196

Shift Register Timing Waveform INSTRUCTION ALE CLOCK OUTPUT DATA WRITE to SBUF INPUT DATA External Clock Drive Characteristics (XTAL1) External Clock Drive Waveforms AC Testing Input/Output Waveforms AT83R5122, AT8xC5122/23 196 XLXL T XHQX T QVXH 0 ...

Page 197

Float Waveforms Clock Waveforms INTERNAL CLOCK XTAL2 ALE EXTERNAL PROGRAM MEMORY FETCH PSEN P0 DATA SAMPLED P2 (EXT) READ CYCLE WRITE CYCLE PORT OPERATION MOV PORT SRC MOV DEST P0 MOV DEST PORT (P1. ...

Page 198

USB Interface V CRS Differential Data Lines AT83R5122, AT8xC5122/23 198 This diagram indicates when signals are clocked internally. The time it takes the signals to propagate to the pins, however, ranges from 25 to 125 ns. This propagation delay is ...

Page 199

... AT83R5122xxx-Z1RUM AT85C5122D-RDTUM AT85C5122D-ALTUM AT85C5122D-RDRUM AT85C5122D-ALRUM AT89C5122D-RDTUM AT89C5122D-ALTUM AT89C5122D-RDRUM AT89C5122D-ALRUM AT89C5122D-PSTUM AT89C5122D-Z1TUM AT89C5122D-PSRUM AT89C5122D-Z1RUM AT89C5122DS-RDTUM AT89C5122DS-ALTUM AT89C5122DS-RDRUM AT89C5122DS-ALRUM AT89C5122D-PSTUM AT89C5122D-Z1TUM AT89C5122D-PSRUM AT89C5122D-Z1RUM AT83C5123xxx-RATUM AT83C5123xxx-ALTUM AT83C5123xxx-RARUM AT83C5123xxx-ALRUM AT83C5123xxx-PUTUM AT83C5123xxx-Z1TUM AT83C5123xxx-PURUM AT83C5123xxx-Z1RUM Note: 1. Check avaibility with sales office 4202F–SCR–07/2008 AT83R5122, AT8xC5122/23 Supply ...

Page 200

Mechanical Dimensions VQFP64 Package AT83R5122, AT8xC5122/23 200 4202F–SCR–07/2008 ...