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| Datasheet R8C/33D Group RENESAS MCU REJ03B0287-0100 Rev.1.00 Mar 31, 2010 1. 1.1 Overview Features The R8C/33D Group of single-chip MCUs incorporates the R8C CPU core, employing sophisticated instructions for a high level of efficiency. With 1 Mbyte of address space, and it is capable of executing instructions at high speed. In addition, the CPU core boasts a multiplier for high-speed operation processing. Power consumption is low, and the supported operating modes allow additional power control. These MCUs are designed to maximize EMI/EMS performance. Integration of many peripheral functions, including multifunction timer and serial interface, reduces the number of system components. 1.1.1 Applications Electronic household appliances, office equipment, audio equipment, consumer equipment, etc. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 1 of 42 R8C/33D Group 1. Overview 1.1.2 Specifications Tables 1.1 and 1.2 outline the Specifications for R8C/33D Group. Table 1.1 Item CPU Specifications for R8C/33D Group (1) Function Central processing unit Specification R8C CPU core * Number of fundamental instructions: 89 * Minimum instruction execution time: 50 ns (f(XIN) = 20 MHz, VCC = 2.7 to 5.5 V) 200 ns (f(XIN) = 5 MHz, VCC = 1.8 to 5.5 V) * Multiplier: 16 bits x 16 bits 32 bits * Multiply-accumulate instruction: 16 bits x 16 bits + 32 bits 32 bits * Operation mode: Single-chip mode (address space: 1 Mbyte) Refer to Table 1.3 Product List for R8C/33D Group. * Power-on reset * Voltage detection 3 (detection level of voltage detection 0 and voltage detection 1 selectable) * Input-only: 1 pin * CMOS I/O ports: 27, selectable pull-up resistor * High current drive ports: 27 * 4 circuits: XIN clock oscillation circuit, XCIN clock oscillation circuit (32 kHz), High-speed on-chip oscillator (with frequency adjustment function), Low-speed on-chip oscillator * Oscillation stop detection: XIN clock oscillation stop detection function * Frequency divider circuit: Dividing selectable 1, 2, 4, 8, and 16 * Low power consumption modes: Standard operating mode (high-speed clock, low-speed clock, high-speed on-chip oscillator, low-speed on-chip oscillator), wait mode, stop mode Real-time clock (timer RE) * Number of interrupt vectors: 69 * External Interrupt: 7 (INT x 3, Key input x 4) * Priority levels: 7 levels * 14 bits x 1 (with prescaler) * Reset start selectable * Low-speed on-chip oscillator for watchdog timer selectable 8 bits x 1 (with 8-bit prescaler) Timer mode (period timer), pulse output mode (output level inverted every period), event counter mode, pulse width measurement mode, pulse period measurement mode 8 bits x 1 (with 8-bit prescaler) Timer mode (period timer), programmable waveform generation mode (PWM output), programmable one-shot generation mode, programmable wait oneshot generation mode 16 bits x 1 (with 4 capture/compare registers) Timer mode (input capture function, output compare function), PWM mode (output 3 pins), PWM2 mode (PWM output pin) 8 bits x 1 Real-time clock mode (count seconds, minutes, hours, days of week), output compare mode Clock synchronous serial I/O/UART Clock synchronous serial I/O/UART, I2C mode (I2C-bus), multiprocessor communication function 10-bit resolution x 12 channels, includes sample and hold function, with sweep mode 2 circuits Memory Power Supply Voltage Detection I/O Ports ROM, RAM Voltage detection circuit Programmable I/O ports Clock generation circuits Clock Interrupts Watchdog Timer Timer Timer RA Timer RB Timer RC Timer RE Serial Interface A/D Converter Comparator B UART0 UART2 REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 2 of 42 R8C/33D Group 1. Overview Table 1.2 Item Flash Memory Specifications for R8C/33D Group (2) Function Specification * Programming and erasure voltage: VCC = 2.7 to 5.5 V * Programming and erasure endurance: 1,000 times (program ROM) * Program security: ROM code protect, ID code check * Debug functions: On-chip debug, on-board flash rewrite function f(XIN) = 20 MHz (VCC = 2.7 to 5.5 V) f(XIN) = 5 MHz (VCC = 1.8 to 5.5 V) Typ. 6.5 mA (VCC = 5.0 V, f(XIN) = 20 MHz) Typ. 3.5 mA (VCC = 3.0 V, f(XIN) = 10 MHz) Typ. 3.5 A (VCC = 3.0 V, wait mode (f(XCIN) = 32 kHz)) Typ. 2.0 A (VCC = 3.0 V, stop mode) -20 to 85C (N version) -40 to 85C (D version) (1) 32-pin LQFP Package code: PLQP0032GB-A (previous code: 32P6U-A) Operating Frequency/Supply Voltage Current Consumption Operating Ambient Temperature Package Note: 1. Specify the D version if D version functions are to be used. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 3 of 42 R8C/33D Group 1. Overview 1.2 Product List Table 1.3 lists Product List for R8C/33D Group, and Figure 1.1 shows a Part Number, Memory Size, and Package of R8C/33D Group. Table 1.3 Product List for R8C/33D Group ROM Capacity 4 Kbytes 8 Kbytes 16 Kbytes 24 Kbytes 32 Kbytes 4 Kbytes 8 Kbytes 16 Kbytes 24 Kbytes 32 Kbytes RAM Capacity 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte Current of Mar. 2010 Package Type PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A PLQP0032GB-A Remarks N version Part No. R5F21331DNFP R5F21332DNFP R5F21334DNFP R5F21335DNFP R5F21336DNFP R5F21331DDFP (D) R5F21332DDFP (D) R5F21334DDFP (D) R5F21335DDFP (D) R5F21336DDFP (D) (D): Under development D version Part No. R 5 F 21 33 6 D N FP Package type: FP: PLQP0032GB-A (0.8 mm pin-pitch, 7 mm square body) Classification N: Operating ambient temperature -20C to 85C D: Operating ambient temperature -40C to 85C ROM capacity 1: 4 KB 2: 8 KB 4: 16 KB 5: 24 KB 6: 32 KB R8C/33D Group R8C/3x Series Memory type F: Flash memory Renesas MCU Renesas semiconductor Figure 1.1 Part Number, Memory Size, and Package of R8C/33D Group REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 4 of 42 R8C/33D Group 1. Overview 1.3 Block Diagram Figure 1.2 shows a Block Diagram. 8 8 3 5 3 1 I/O ports Peripheral functions Timers Timer RA (8 bits x 1) Timer RB (8 bits x 1) Timer RC (16 bits x 1) Timer RE (8 bits x 1) Port P0 Port P1 Port P2 Port P3 Port P4 UART or clock synchronous serial I/O (8 bits x 2) System clock generation circuit XIN-XOUT High-speed on-chip oscillator Low-speed on-chip oscillator XCIN-XCOUT Watchdog timer (14 bits) A/D converter (10 bits x 12 channels) Low-speed on-chip oscillator for watchdog timer Voltage detection circuit Comparator B R8C CPU core R0H R1H R2 R3 A0 A1 FB R0L R1L SB USP ISP INTB PC FLG Memory ROM (1) RAM (2) Multiplier Notes: 1. ROM size varies with MCU type. 2. RAM size varies with MCU type. Figure 1.2 Block Diagram REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 5 of 42 R8C/33D Group 1. Overview 1.4 Pin Assignment Figure 1.3 shows Pin Assignment (Top View). Table 1.4 outlines the Pin Name Information by Pin Number. 24 23 22 21 20 19 18 17 P1_0/AN8/KI0(/TRCIOD) P1_1/AN9/KI1(/TRCIOA/TRCTRG) P1_2/AN10/Kl2(/TRCIOB) P1_3/AN11/Kl3/TRBO(/TRCIOC) P1_4(/TXD0/TRCCLK) P1_5(/INT1/RXD0/TRAIO) P1_6/IVREF1(/CLK0) P1_7/IVCMP1/INT1(/TRAIO) P0_7/AN0(/TRCIOC) P0_6/AN1(/TRCIOD) P0_5/AN2(/TRCIOB) P0_4/AN3/TREO(/TRCIOB) P0_3/AN4(/TRCIOB) P0_2/AN5(/TRCIOA/TRCTRG) P0_1/AN6(/TRCIOA/TRCTRG) P0_0/AN7(/TRCIOA/TRCTRG) 25 26 27 28 29 30 31 32 1 2 3 4 5 6 7 8 16 15 R8C/33D Group PLQP0032GB-A (32P6U-A) (top view) 14 13 12 11 10 9 P4_5/ADTRG/INT0(/RXD2/SCL2) P3_1(/TRBO) P2_0(/INT1/TRCIOB) P2_1(/TRCIOC) P2_2(/TRCIOD) P3_3/IVCMP3/INT3(/CTS2/RTS2/TRCCLK) P3_4/IVREF3(/RXD2/SCL2/TXD2/SDA2/TRCIOC) P3_5(/CLK2/TRCIOD) Notes: 1. Can be assigned to the pin in parentheses by a program. 2. Confirm the pin 1 position on the package by referring to the package dimensions. Figure 1.3 Pin Assignment (Top View) REJ03B0287-0100 Rev.1.00 Mar 31, 2010 RESET P4_7/XOUT(/XCOUT) VSS/AVSS P4_6/XIN(/XCIN) VCC/AVCC P3_7/TRAO(/RXD2/SCL2/TXD2/SDA2) P4_2/VREF MODE Page 6 of 42 R8C/33D Group 1. Overview Table 1.4 Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Pin Name Information by Pin Number Control Pin Port P4_2 MODE RESET XOUT(/XCOUT) VSS/AVSS XIN(/XCIN) VCC/AVCC P4_7 P4_6 P3_7 P3_5 P3_4 P3_3 P2_2 P2_1 P2_0 P3_1 P4_5 P1_7 P1_6 P1_5 P1_4 P1_3 P1_2 P1_1 P1_0 P0_7 P0_6 P0_5 P0_4 P0_3 P0_2 P0_1 P0_0 INT3 TRAO (TRCIOD) (TRCIOC) (TRCCLK) (TRCIOD) (TRCIOC) (TRCIOB) (TRBO) INT0 INT1 (INT1) KI3 KI2 KI1 KI0 (TRAIO) (TRAIO) (TRCCLK) TRBO(/TRCIOC) (TRCIOB) (TRCIOA/TRCTRG) (TRCIOD) (TRCIOC) (TRCIOD) (TRCIOB) TREO(/TRCIOB) (TRCIOB) (TRCIOA/TRCTRG) (TRCIOA/TRCTRG) (TRCIOA/TRCTRG) (CLK0) (RXD0) (TXD0) AN11 AN10 AN9 AN8 AN0 AN1 AN2 AN3 AN4 AN5 AN6 AN7 (RXD2/SCL2) ADTRG IVCMP1 IVREF1 (RXD2/SCL2/ TXD2/SDA2) (CLK2) (RXD2/SCL2/ TXD2/SDA2) (CTS2/RTS2) I/O Pin Functions for Peripheral Modules A/D Converter, Timer Serial Interface Comparator B VREF Interrupt IVREF3 IVCMP3 (INT1) Note: 1. Can be assigned to the pin in parentheses by a program. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 7 of 42 R8C/33D Group 1. Overview 1.5 Pin Functions Table 1.5 lists Pin Functions. Table 1.5 Pin Functions Pin Name VCC, VSS AVCC, AVSS RESET MODE XIN XOUT I/O Type Description - Apply 1.8 V to 5.5 V to the VCC pin. Apply 0 V to the VSS pin. - Power supply for the A/D converter. Connect a capacitor between AVCC and AVSS. I Input "L" on this pin resets the MCU. I I I/O Connect this pin to VCC via a resistor. These pins are provided for XIN clock generation circuit I/O. Connect a ceramic resonator or a crystal oscillator between the XIN and XOUT pins (1). To use an external clock, input it to the XOUT pin and leave the XIN pin open. These pins are provided for XCIN clock generation circuit I/O. Connect a crystal oscillator between the XCIN and XCOUT pins (1). To use an external clock, input it to the XCIN pin and leave the XCOUT pin open. INT interrupt input pins. INT0 is timer RB, and RC input pin. Key input interrupt input pins Timer RA I/O pin Timer RA output pin Timer RB output pin External clock input pin External trigger input pin Timer RC I/O pins Divided clock output pin Transfer clock I/O pins Serial data input pins Serial data output pins Transmission control input pin Reception control output pin I2C mode clock I/O pin I2C mode data I/O pin Reference voltage input pin to A/D converter Analog input pins to A/D converter A/D external trigger input pin Comparator B analog voltage input pins Comparator B reference voltage input pins CMOS I/O ports. Each port has an I/O select direction register, allowing each pin in the port to be directed for input or output individually. Any port set to input can be set to use a pull-up resistor or not by a program. All ports can be used as LED drive ports. Input-only port Item Power supply input Analog power supply input Reset input MODE XIN clock input XIN clock output XCIN clock input XCIN clock output XCIN XCOUT I O INT interrupt input Key input interrupt Timer RA Timer RB Timer RC INT0, INT1, INT3 KI0 to KI3 TRAIO TRAO TRBO TRCCLK TRCTRG TRCIOA, TRCIOB, TRCIOC, TRCIOD TREO CLK0, CLK2 RXD0, RXD2 TXD0, TXD2 CTS2 RTS2 SCL2 SDA2 I I I/O O O I I I/O O I/O I O I O I/O I/O I I I I I I/O Timer RE Serial interface Reference voltage input A/D converter Comparator B I/O port VREF AN0 to AN11 ADTRG IVCMP1, IVCMP3 IVREF1, IVREF3 P0_0 to P0_7, P1_0 to P1_7, P2_0 to P2_2, P3_1, P3_3 to P3_5, P3_7, P4_5 to P4_7 P4_2 Input port I I: Input O: Output I/O: Input and output Note: 1. Refer to the oscillator manufacturer for oscillation characteristics. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 8 of 42 R8C/33D Group 2. Central Processing Unit (CPU) 2. Central Processing Unit (CPU) Figure 2.1 shows the CPU Registers. The CPU contains 13 registers. R0, R1, R2, R3, A0, A1, and FB configure a register bank. There are two sets of register bank. b31 b15 b8b7 b0 R2 R3 R0H (high-order of R0) R0L (low-order of R0) R1H (high-order of R1) R1L (low-order of R1) Data registers (1) R2 R3 A0 A1 FB b19 b15 b0 Address registers (1) Frame base register (1) INTBH INTBL Interrupt table register The 4 high order bits of INTB are INTBH and the 16 low order bits of INTB are INTBL. b19 b0 PC Program counter b15 b0 USP ISP SB b15 b0 User stack pointer Interrupt stack pointer Static base register FLG b15 b8 b7 b0 Flag register IPL U I OBSZDC Carry flag Debug flag Zero flag Sign flag Register bank select flag Overflow flag Interrupt enable flag Stack pointer select flag Reserved bit Processor interrupt priority level Reserved bit Note: 1. These registers comprise a register bank. There are two register banks. Figure 2.1 CPU Registers REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 9 of 42 R8C/33D Group 2. Central Processing Unit (CPU) 2.1 Data Registers (R0, R1, R2, and R3) R0 is a 16-bit register for transfer, arithmetic, and logic operations. The same applies to R1 to R3. R0 can be split into high-order bits (R0H) and low-order bits (R0L) to be used separately as 8-bit data registers. R1H and R1L are analogous to R0H and R0L. R2 can be combined with R0 and used as a 32-bit data register (R2R0). R3R1 is analogous to R2R0. 2.2 Address Registers (A0 and A1) A0 is a 16-bit register for address register indirect addressing and address register relative addressing. It is also used for transfer, arithmetic, and logic operations. A1 is analogous to A0. A1 can be combined with A0 and as a 32bit address register (A1A0). 2.3 Frame Base Register (FB) FB is a 16-bit register for FB relative addressing. 2.4 Interrupt Table Register (INTB) INTB is a 20-bit register that indicates the starting address of an interrupt vector table. 2.5 Program Counter (PC) PC is 20 bits wide and indicates the address of the next instruction to be executed. 2.6 User Stack Pointer (USP) and Interrupt Stack Pointer (ISP) The stack pointers (SP), USP and ISP, are each 16 bits wide. The U flag of FLG is used to switch between USP and ISP. 2.7 Static Base Register (SB) SB is a 16-bit register for SB relative addressing. 2.8 Flag Register (FLG) FLG is an 11-bit register indicating the CPU state. 2.8.1 Carry Flag (C) The C flag retains carry, borrow, or shift-out bits that have been generated by the arithmetic and logic unit. 2.8.2 Debug Flag (D) The D flag is for debugging only. Set it to 0. 2.8.3 Zero Flag (Z) The Z flag is set to 1 when an arithmetic operation results in 0; otherwise to 0. 2.8.4 Sign Flag (S) The S flag is set to 1 when an arithmetic operation results in a negative value; otherwise to 0. 2.8.5 Register Bank Select Flag (B) Register bank 0 is selected when the B flag is 0. Register bank 1 is selected when this flag is set to 1. 2.8.6 Overflow Flag (O) The O flag is set to 1 when an operation results in an overflow; otherwise to 0. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 10 of 42 R8C/33D Group 2. Central Processing Unit (CPU) 2.8.7 Interrupt Enable Flag (I) The I flag enables maskable interrupts. Interrupts are disabled when the I flag is set to 0, and are enabled when the I flag is set to 1. The I flag is set to 0 when an interrupt request is acknowledged. 2.8.8 Stack Pointer Select Flag (U) ISP is selected when the U flag is set to 0; USP is selected when the U flag is set to 1. The U flag is set to 0 when a hardware interrupt request is acknowledged or the INT instruction of software interrupt numbers 0 to 31 is executed. 2.8.9 Processor Interrupt Priority Level (IPL) IPL is 3 bits wide and assigns processor interrupt priority levels from level 0 to level 7. If a requested interrupt has higher priority than IPL, the interrupt is enabled. 2.8.10 Reserved Bit If necessary, set to 0. When read, the content is undefined. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 11 of 42 R8C/33D Group 3. Memory 3. 3.1 Memory R8C/33D Group Figure 3.1 is a Memory Map of R8C/33D Group. The R8C/33D Group has a 1-Mbyte address space from addresses 00000h to FFFFFh. The internal ROM (program ROM) is allocated lower addresses, beginning with address 0FFFFh. For example, a 32-Kbyte internal ROM area is allocated addresses 08000h to 0FFFFh. The fixed interrupt vector table is allocated addresses 0FFDCh to 0FFFFh. The starting address of each interrupt routine is stored here. The internal RAM is allocated higher addresses, beginning with address 00400h. For example, a 1-Kbyte internal RAM area is allocated addresses 00400h to 007FFh. The internal RAM is used not only for data storage but also as a stack area when a subroutine is called or when an interrupt request is acknowledged. Special function registers (SFRs) are allocated addresses 00000h to 002FFh. Peripheral function control registers are allocated here. All unallocated spaces within the SFRs are reserved and cannot be accessed by users. 00000h 002FFh 00400h SFR (Refer to 4. Special Function Registers (SFRs)) Internal RAM 0XXXXh 0FFD8h Reserved area 0FFDCh Undefined instruction Overflow BRK instruction Address match Single step Watchdog timer, oscillation stop detection, voltage monitor 0YYYYh Internal ROM (program ROM) 0FFFFh 0FFFFh (Reserved) (Reserved) Reset FFFFFh Note: 1. The blank areas are reserved and cannot be accessed by users. Internal ROM Part Number R5F21331DNFP, R5F21331DDFP R5F21332DNFP, R5F21332DDFP R5F21334DNFP, R5F21334DDFP R5F21335DNFP, R5F21335DDFP R5F21336DNFP, R5F21336DDFP Size 4 Kbytes 8 Kbytes 16 Kbytes 24 Kbytes 32 Kbytes Address 0YYYYh 0F000h 0E000h 0C000h 0A000h 08000h Size 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte 1 Kbyte Internal RAM Address 0XXXXh 007FFh 007FFh 007FFh 007FFh 007FFh Figure 3.1 Memory Map of R8C/33D Group REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 12 of 42 R8C/33D Group 4. Special Function Registers (SFRs) 4. Special Function Registers (SFRs) An SFR (special function register) is a control register for a peripheral function. Tables 4.1 to 4.8 list the special function registers and Table 4.9 lists the ID Code Areas and Option Function Select Area. Table 4.1 Address 0000h 0001h 0002h 0003h 0004h 0005h 0006h 0007h 0008h 0009h 000Ah 000Bh 000Ch 000Dh 000Eh 000Fh 0010h 0011h 0012h 0013h 0014h 0015h 0016h 0017h 0018h 0019h 001Ah 001Bh 001Ch 001Dh 001Eh 001Fh 0020h 0021h 0022h 0023h 0024h 0025h 0026h 0027h 0028h 0029h 002Ah 002Bh 002Ch 002Dh 002Eh 002Fh 0030h 0031h 0032h 0033h 0034h 0035h 0036h 0037h 0038h SFR Information (1) (1) Register Symbol After Reset Processor Mode Register 0 Processor Mode Register 1 System Clock Control Register 0 System Clock Control Register 1 Module Standby Control Register System Clock Control Register 3 Protect Register Reset Source Determination Register Oscillation Stop Detection Register Watchdog Timer Reset Register Watchdog Timer Start Register Watchdog Timer Control Register PM0 PM1 CM0 CM1 MSTCR CM3 PRCR RSTFR OCD WDTR WDTS WDTC 00h 00h 00101000b 00100000b 00h 00h 00h 0XXXXXXXb (2) 00000100b XXh XXh 00111111b High-Speed On-Chip Oscillator Control Register 7 FRA7 When shipping Count Source Protection Mode Register CSPR 00h 10000000b (3) High-Speed On-Chip Oscillator Control Register 0 High-Speed On-Chip Oscillator Control Register 1 High-Speed On-Chip Oscillator Control Register 2 On-Chip Reference Voltage Control Register Clock Prescaler Reset Flag High-Speed On-Chip Oscillator Control Register 4 High-Speed On-Chip Oscillator Control Register 5 High-Speed On-Chip Oscillator Control Register 6 FRA0 FRA1 FRA2 OCVREFCR CPSRF FRA4 FRA5 FRA6 00h When shipping 00h 00h 00h When shipping When shipping When shipping High-Speed On-Chip Oscillator Control Register 3 Voltage Monitor Circuit Control Register Voltage Monitor Circuit Edge Select Register Voltage Detect Register 1 Voltage Detect Register 2 FRA3 CMPA VCAC VCA1 VCA2 When shipping 00h 00h 00001000b 00h (4) 00100000b (5) 00000111b 1100X010b (4) 1100X011b (5) 10001010b Voltage Detection 1 Level Select Register Voltage Monitor 0 Circuit Control Register VD1LS VW0C 0039h Voltage Monitor 1 Circuit Control Register VW1C X: Undefined Notes: 1. The blank areas are reserved and cannot be accessed by users. 2. The CWR bit in the RSTFR register is set to 0 after power-on and voltage monitor 0 reset. Hardware reset, Software reset, or watchdog timer reset does not affect this bit. 3. The CSPROINI bit in the OFS register is set to 0. 4. The LVDAS bit in the OFS register is set to 1. 5. The LVDAS bit in the OFS register is set to 0. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 13 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.2 Address 003Ah 003Bh 003Ch 003Dh 003Eh 003Fh 0040h 0041h 0042h 0043h 0044h 0045h 0046h 0047h 0048h 0049h 004Ah 004Bh 004Ch 004Dh 004Eh 004Fh 0050h 0051h 0052h 0053h 0054h 0055h 0056h 0057h 0058h 0059h 005Ah 005Bh 005Ch 005Dh 005Eh 005Fh 0060h 0061h 0062h 0063h 0064h 0065h 0066h 0067h 0068h 0069h 006Ah 006Bh 006Ch 006Dh 006Eh 006Fh 0070h 0071h 0072h 0073h 0074h 0075h 0076h 0077h 0078h 0079h 007Ah 007Bh 007Ch 007Dh 007Eh 007Fh SFR Information (2) (1) Register Voltage Monitor 2 Circuit Control Register Symbol VW2C After Reset 10000010b Flash Memory Ready Interrupt Control Register FMRDYIC XXXXX000b Timer RC Interrupt Control Register TRCIC XXXXX000b Timer RE Interrupt Control Register UART2 Transmit Interrupt Control Register UART2 Receive Interrupt Control Register Key Input Interrupt Control Register A/D Conversion Interrupt Control Register TREIC S2TIC S2RIC KUPIC ADIC XXXXX000b XXXXX000b XXXXX000b XXXXX000b XXXXX000b UART0 Transmit Interrupt Control Register UART0 Receive Interrupt Control Register S0TIC S0RIC XXXXX000b XXXXX000b Timer RA Interrupt Control Register Timer RB Interrupt Control Register INT1 Interrupt Control Register INT3 Interrupt Control Register TRAIC TRBIC INT1IC INT3IC XXXXX000b XXXXX000b XX00X000b XX00X000b INT0 Interrupt Control Register UART2 Bus Collision Detection Interrupt Control Register INT0IC U2BCNIC XX00X000b XXXXX000b Voltage Monitor 1 Interrupt Control Register Voltage Monitor 2 Interrupt Control Register VCMP1IC VCMP2IC XXXXX000b XXXXX000b X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 14 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.3 Address 0080h 0081h 0082h 0083h 0084h 0085h 0086h 0087h 0088h 0089h 008Ah 008Bh 008Ch 008Dh 008Eh 008Fh 0090h 0091h 0092h 0093h 0094h 0095h 0096h 0097h 0098h 0099h 009Ah 009Bh 009Ch 009Dh 009Eh 009Fh 00A0h 00A1h 00A2h 00A3h 00A4h 00A5h 00A6h 00A7h 00A8h 00A9h 00AAh 00ABh 00ACh 00ADh 00AEh 00AFh 00B0h 00B1h 00B2h 00B3h 00B4h 00B5h 00B6h 00B7h 00B8h 00B9h 00BAh 00BBh 00BCh 00BDh 00BEh 00BFh SFR Information (3) (1) Register Symbol After Reset UART0 Transmit/Receive Mode Register UART0 Bit Rate Register UART0 Transmit Buffer Register UART0 Transmit/Receive Control Register 0 UART0 Transmit/Receive Control Register 1 UART0 Receive Buffer Register UART2 Transmit/Receive Mode Register UART2 Bit Rate Register UART2 Transmit Buffer Register UART2 Transmit/Receive Control Register 0 UART2 Transmit/Receive Control Register 1 UART2 Receive Buffer Register UART2 Digital Filter Function Select Register U0MR U0BRG U0TB U0C0 U0C1 U0RB U2MR U2BRG U2TB U2C0 U2C1 U2RB URXDF 00h XXh XXh XXh 00001000b 00000010b XXh XXh 00h XXh XXh XXh 00001000b 00000010b XXh XXh 00h UART2 Special Mode Register 5 UART2 Special Mode Register 4 UART2 Special Mode Register 3 UART2 Special Mode Register 2 UART2 Special Mode Register U2SMR5 U2SMR4 U2SMR3 U2SMR2 U2SMR 00h 00h 000X0X0Xb X0000000b X0000000b X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 15 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.4 Address 00C0h 00C1h 00C2h 00C3h 00C4h 00C5h 00C6h 00C7h 00C8h 00C9h 00CAh 00CBh 00CCh 00CDh 00CEh 00CFh 00D0h 00D1h 00D2h 00D3h 00D4h 00D5h 00D6h 00D7h 00D8h 00D9h 00DAh 00DBh 00DCh 00DDh 00DEh 00DFh 00E0h 00E1h 00E2h 00E3h 00E4h 00E5h 00E6h 00E7h 00E8h 00E9h 00EAh 00EBh 00ECh 00EDh 00EEh 00EFh 00F0h 00F1h 00F2h 00F3h 00F4h 00F5h 00F6h 00F7h 00F8h 00F9h 00FAh 00FBh 00FCh 00FDh 00FEh 00FFh SFR Information (4) (1) Register A/D Register 0 A/D Register 1 A/D Register 2 A/D Register 3 A/D Register 4 A/D Register 5 A/D Register 6 A/D Register 7 AD0 AD1 AD2 AD3 AD4 AD5 AD6 AD7 Symbol After Reset XXh 000000XXb XXh 000000XXb XXh 000000XXb XXh 000000XXb XXh 000000XXb XXh 000000XXb XXh 000000XXb XXh 000000XXb A/D Mode Register A/D Input Select Register A/D Control Register 0 A/D Control Register 1 ADMOD ADINSEL ADCON0 ADCON1 00h 11000000b 00h 00h Port P0 Register Port P1 Register Port P0 Direction Register Port P1 Direction Register Port P2 Register Port P3 Register Port P2 Direction Register Port P3 Direction Register Port P4 Register Port P4 Direction Register P0 P1 PD0 PD1 P2 P3 PD2 PD3 P4 PD4 XXh XXh 00h 00h XXh XXh 00h 00h XXh 00h X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 16 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.5 Address 0100h 0101h 0102h 0103h 0104h 0105h 0106h 0107h 0108h 0109h 010Ah 010Bh 010Ch 010Dh 010Eh 010Fh 0110h 0111h 0112h 0113h 0114h 0115h 0116h 0117h 0118h 0119h 011Ah 011Bh 011Ch 011Dh 011Eh 011Fh 0120h 0121h 0122h 0123h 0124h 0125h 0126h 0127h 0128h 0129h 012Ah 012Bh 012Ch 012Dh 012Eh 012Fh 0130h 0131h 0132h 0133h 0134h 0135h 0136h 0137h 0138h 0139h 013Ah 013Bh 013Ch 013Dh 013Eh 013Fh Note: 1. SFR Information (5) (1) Register Timer RA Control Register Timer RA I/O Control Register Timer RA Mode Register Timer RA Prescaler Register Timer RA Register Symbol TRACR TRAIOC TRAMR TRAPRE TRA After Reset 00h 00h 00h FFh FFh Timer RB Control Register Timer RB One-Shot Control Register Timer RB I/O Control Register Timer RB Mode Register Timer RB Prescaler Register Timer RB Secondary Register Timer RB Primary Register TRBCR TRBOCR TRBIOC TRBMR TRBPRE TRBSC TRBPR 00h 00h 00h 00h FFh FFh FFh Timer RE Second Data Register / Counter Data Register Timer RE Minute Data Register / Compare Data Register Timer RE Hour Data Register Timer RE Day of Week Data Register Timer RE Control Register 1 Timer RE Control Register 2 Timer RE Count Source Select Register Timer RC Mode Register Timer RC Control Register 1 Timer RC Interrupt Enable Register Timer RC Status Register Timer RC I/O Control Register 0 Timer RC I/O Control Register 1 Timer RC Counter Timer RC General Register A Timer RC General Register B Timer RC General Register C Timer RC General Register D Timer RC Control Register 2 Timer RC Digital Filter Function Select Register Timer RC Output Master Enable Register Timer RC Trigger Control Register TRESEC TREMIN TREHR TREWK TRECR1 TRECR2 TRECSR TRCMR TRCCR1 TRCIER TRCSR TRCIOR0 TRCIOR1 TRC TRCGRA TRCGRB TRCGRC TRCGRD TRCCR2 TRCDF TRCOER TRCADCR 00h 00h 00h 00h 00h 00h 00001000b 01001000b 00h 01110000b 01110000b 10001000b 10001000b 00h 00h FFh FFh FFh FFh FFh FFh FFh FFh 00011000b 00h 01111111b 00h The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 17 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.6 Address 0140h 0141h 0142h 0143h 0144h 0145h 0146h 0147h 0148h 0149h 014Ah 014Bh 014Ch 014Dh 014Eh 014Fh 0150h 0151h 0152h 0153h 0154h 0155h 0156h 0157h 0158h 0159h 015Ah 015Bh 015Ch 015Dh 015Eh 015Fh 0160h 0161h 0162h 0163h 0164h 0165h 0166h 0167h 0168h 0169h 016Ah 016Bh 016Ch 016Dh 016Eh 016Fh 0170h 0171h 0172h 0173h 0174h 0175h 0176h 0177h 0178h 0179h 017Ah 017Bh 017Ch 017Dh 017Eh 017Fh SFR Information (6) (1) Register Symbol After Reset X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 18 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.7 Address 0180h 0181h 0182h 0183h 0184h 0185h 0186h 0187h 0188h 0189h 018Ah 018Bh 018Ch 018Dh 018Eh 018Fh 0190h 0191h 0192h 0193h 0194h 0195h 0196h 0197h 0198h 0199h 019Ah 019Bh 019Ch 019Dh 019Eh 019Fh 01A0h 01A1h 01A2h 01A3h 01A4h 01A5h 01A6h 01A7h 01A8h 01A9h 01AAh 01ABh 01ACh 01ADh 01AEh 01AFh 01B0h 01B1h 01B2h 01B3h 01B4h 01B5h 01B6h 01B7h 01B8h 01B9h 01BAh 01BBh 01BCh 01BDh 01BEh 01BFh SFR Information (7) (1) Register Timer RA Pin Select Register Timer RB/RC Pin Select Register Timer RC Pin Select Register 0 Timer RC Pin Select Register 1 Symbol TRASR TRBRCSR TRCPSR0 TRCPSR1 After Reset 00h 00h 00h 00h UART0 Pin Select Register UART2 Pin Select Register 0 UART2 Pin Select Register 1 U0SR U2SR0 U2SR1 00h 00h 00h INT Interrupt Input Pin Select Register I/O Function Pin Select Register INTSR PINSR 00h 00h Flash Memory Status Register Flash Memory Control Register 0 Flash Memory Control Register 1 Flash Memory Control Register 2 FST FMR0 FMR1 FMR2 10000X00b 00h 00h 00h X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 19 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.8 Address 01C0h 01C1h 01C2h 01C3h 01C4h 01C5h 01C6h 01C7h 01C8h 01C9h 01CAh 01CBh 01CCh 01CDh 01CEh 01CFh 01D0h 01D1h 01D2h 01D3h 01D4h 01D5h 01D6h 01D7h 01D8h 01D9h 01DAh 01DBh 01DCh 01DDh 01DEh 01DFh 01E0h 01E1h 01E2h 01E3h 01E4h 01E5h 01E6h 01E7h 01E8h 01E9h 01EAh 01EBh 01ECh 01EDh 01EEh 01EFh 01F0h 01F1h 01F2h 01F3h 01F4h 01F5h 01F6h 01F7h 01F8h 01F9h 01FAh 01FBh 01FCh 01FDh 01FEh 01FFh SFR Information (8) (1) Register Address Match Interrupt Register 0 Symbol RMAD0 After Reset XXh XXh 0000XXXXb 00h XXh XXh 0000XXXXb Address Match Interrupt Enable Register Address Match Interrupt Register 1 AIER RMAD1 Pull-Up Control Register 0 Pull-Up Control Register 1 PUR0 PUR1 00h 00h Port P1 Drive Capacity Control Register Port P2 Drive Capacity Control Register Drive Capacity Control Register 0 Drive Capacity Control Register 1 Input Threshold Control Register 0 Input Threshold Control Register 1 Comparator B Control Register 0 External Input Enable Register 0 INT Input Filter Select Register 0 Key Input Enable Register 0 P1DRR P2DRR DRR0 DRR1 VLT0 VLT1 INTCMP INTEN INTF KIEN 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h X: Undefined Note: 1. The blank areas are reserved and cannot be accessed by users. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 20 of 42 R8C/33D Group 4. Special Function Registers (SFRs) Table 4.9 Address : FFDBh : FFDFh : FFE3h : FFEBh : FFEFh : FFF3h : FFF7h : FFFBh : FFFFh Notes: 1. ID Code Areas and Option Function Select Area Area Name Option Function Select Register 2 ID1 ID2 ID3 ID4 ID5 ID6 ID7 Option Function Select Register OFS OFS2 Symbol After Reset (Note 1) (Note 2) (Note 2) (Note 2) (Note 2) (Note 2) (Note 2) (Note 2) (Note 1) 2. The option function select area is allocated in the flash memory, not in the SFRs. Set appropriate values as ROM data by a program. Do not write additions to the option function select area. If the block including the option function select area is erased, the option function select area is set to FFh. When blank products are shipped, the option function select area is set to FFh. It is set to the written value after written by the user. When factory-programming products are shipped, the value of the option function select area is the value programmed by the user. The ID code areas are allocated in the flash memory, not in the SFRs. Set appropriate values as ROM data by a program. Do not write additions to the ID code areas. If the block including the ID code areas is erased, the ID code areas are set to FFh. When blank products are shipped, the ID code areas are set to FFh. They are set to the written value after written by the user. When factory-programming products are shipped, the value of the ID code areas is the value programmed by the user. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 21 of 42 R8C/33D Group 5. Electrical Characteristics 5. Electrical Characteristics Table 5.1 Symbol VCC/AVCC VI VO Pd Topr Tstg Input voltage Output voltage Power dissipation Operating ambient temperature Storage temperature -40C Topr 85C Absolute Maximum Ratings Parameter Supply voltage Condition Rated Value -0.3 to 6.5 -0.3 to VCC + 0.3 -0.3 to VCC + 0.3 500 -20 to 85 (N version) / -40 to 85 (D version) -65 to 150 Unit V V V mW C C REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 22 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.2 Symbol Recommended Operating Conditions Parameter Conditions Standard Min. 1.8 - Other than CMOS input CMOS Input level Input level selection: input switching 0.35 VCC function (I/O port) Input level selection: 0.5 VCC 4.0 V VCC 5.5 V 0.8 VCC 0.5 VCC 2.7 V VCC < 4.0 V 0.55 VCC 1.8 V VCC < 2.7 V 0.65 VCC 4.0 V VCC 5.5 V 2.7 V VCC < 4.0 V 1.8 V VCC < 2.7 V 0.65 VCC 0.7 VCC 0.8 VCC Typ. - 0 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 32.768 - - - - - - - Max. 5.5 - VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC 0.2 VCC 0.2 VCC 0.2 VCC 0.2 VCC 0.4 VCC 0.3 VCC 0.2 VCC 0.55 VCC 0.45 VCC 0.35 VCC 0.4 -160 -80 -10 -40 -5 -20 160 80 10 40 5 20 20 5 50 40 20 5 20 5 20 5 Unit V V V V V V V V V V V V V V V V V V V V V V V V mA mA mA mA mA mA mA mA mA mA mA mA MHz MHz kHz MHz MHz MHz MHz MHz MHz MHz VCC/AVCC Supply voltage VSS/AVSS Supply voltage VIH Input "H" voltage Input level selection: 4.0 V VCC 5.5 V 0.85 VCC 0.7 VCC 2.7 V VCC < 4.0 V 0.85 VCC 1.8 V VCC < 2.7 V 0.85 VCC External clock input (XOUT) VIL Input "L" voltage Other than CMOS input CMOS Input level Input level selection: input switching 0.35 VCC function (I/O port) Input level selection: 0.5 VCC 4.0 V VCC 5.5 V 2.7 V VCC < 4.0 V 1.8 V VCC < 2.7 V 4.0 V VCC 5.5 V 2.7 V VCC < 4.0 V 1.8 V VCC < 2.7 V Input level selection: 4.0 V VCC 5.5 V 0.7 VCC 2.7 V VCC < 4.0 V 1.8 V VCC < 2.7 V External clock input (XOUT) IOH(sum) IOH(sum) IOH(peak) IOH(avg) IOL(sum) IOL(sum) IOL(peak) IOL(avg) f(XIN) f(XCIN) fOCO-F f(BCLK) Peak sum output "H" current Sum of all pins IOH(peak) 1.2 0 0 0 0 0 0 0 0 0 0 0 - - - - - - - - - - - - 2.7 V VCC 5.5 V 1.8 V VCC < 2.7 V XCIN clock input oscillation frequency fOCO-F frequency System clock frequency CPU clock frequency 1.8 V VCC 5.5 V 2.7 V VCC 5.5 V 2.7 V VCC 5.5 V 1.8 V VCC < 2.7 V 2.7 V VCC 5.5 V 1.8 V VCC < 2.7 V 2.7 V VCC 5.5 V 1.8 V VCC < 2.7 V fOCO40M When used as the count source for timer RC (3) - - - 32 - - - - - - Average sum Sum of all pins IOH(avg) output "H" current Peak output "H" current Average output "H" current Peak sum output "L" current Average sum output "L" current Peak output "L" current Average output "L" current Drive capacity Low Drive capacity High Drive capacity Low Drive capacity High Sum of all pins IOL(peak) Sum of all pins IOL(avg) Drive capacity Low Drive capacity High Drive capacity Low Drive capacity High XIN clock input oscillation frequency Notes: 1. VCC = 1.8 to 5.5 V at Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. 2. The average output current indicates the average value of current measured during 100 ms. 3. fOCO40M can be used as the count source for timer RC in the range of VCC = 2.7 V to 5.5 V. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 23 of 42 R8C/33D Group 5. Electrical Characteristics P0 P1 P2 P3 P4 30 pF Figure 5.1 Ports P0 to P4 Timing Measurement Circuit REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 24 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.3 Symbol - - A/D Converter Characteristics (1) Parameter Resolution Absolute accuracy 10-bit mode Vref = AVCC Vref = AVCC = 5.0 V Vref = AVCC = 3.3 V Vref = AVCC = 3.0 V Vref = AVCC = 2.2 V 8-bit mode Vref = AVCC = 5.0 V Vref = AVCC = 3.3 V Vref = AVCC = 3.0 V Vref = AVCC = 2.2 V AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input AN0 to AN7 input, AN8 to AN11 input (2) Conditions Standard Min. - - - - - - - - - 2 2 2 2 - 2.15 2.15 0.75 - 2.2 0 Typ. - - - - - - - - - - - - - 3 - - - 45 - - 1.34 Max. 10 3 5 5 5 2 2 2 2 20 16 10 5 - - - - - AVCC Vref 1.49 Unit Bit LSB LSB LSB LSB LSB LSB LSB LSB MHz MHz MHz MHz k s s s A AD A/D conversion clock 4.0 V Vref = AVCC 5.5 V (2) 3.2 V Vref = AVCC 5.5 V 2.7 V Vref = AVCC 5.5 V (2) 2.2 V Vref = AVCC 5.5 V (2) - tCONV tSAMP IVref Vref VIA Tolerance level impedance Conversion time Sampling time Vref current Reference voltage Analog input voltage (3) 10-bit mode 8-bit mode Vref = AVCC = 5.0 V, AD = 20 MHz Vref = AVCC = 5.0 V, AD = 20 MHz AD = 20 MHz VCC = 5.0 V, XIN = f1 = AD = 20 MHz V V V OCVREF On-chip reference voltage 2 MHz AD 4 MHz 1.19 Notes: 1. VCC/AVCC = Vref = 2.2 to 5.5 V, VSS = 0 V at Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. 2. The A/D conversion result will be undefined in wait mode, stop mode, when the flash memory stops, and in low-currentconsumption mode. Do not perform A/D conversion in these states or transition to these states during A/D conversion. 3. When the analog input voltage is over the reference voltage, the A/D conversion result will be 3FFh in 10-bit mode and FFh in 8-bit mode. Table 5.4 Symbol Vref VI - td ICMP Comparator B Electrical Characteristics Parameter IVREF1, IVREF3 input reference voltage IVCMP1, IVCMP3 input voltage Offset Comparator output delay time (2) Comparator operating current VI = Vref 100 mV VCC = 5.0 V Condition Standard Min. 0 -0.3 Typ. - - 5 0.1 17.5 Max. VCC - 1.4 VCC + 0.3 100 - - Unit V V mV s A - - - Notes: 1. VCC = 2.7 to 5.5 V, Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. 2. When the digital filter is disabled. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 25 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.5 Symbol - - - td(SR-SUS) - - td(CMDRSTREADY) Flash Memory (Program ROM) Electrical Characteristics Parameter Program/erase endurance (2) Byte program time Block erase time Time delay from suspend request until suspend Interval from erase start/restart until following suspend request Time from suspend until erase restart Time from when command is forcibly stopped until reading is enabled Program, erase voltage Read voltage Program, erase temperature Data hold time (7) Conditions Standard Min. 1,000 (3) - - - 0 - - 2.7 1.8 0 Typ. - 80 0.3 - - - - - - - - Max. - 500 - 5 + CPU clock x 3 cycles - 30 + CPU clock x 1 cycle 30 + CPU clock x 1 cycle 5.5 5.5 60 - Unit times s s ms s s s - - - - V V C Ambient temperature = 55C 20 year Notes: 1. VCC = 2.7 to 5.5 V at Topr = 0 to 60C, unless otherwise specified. 2. Definition of programming/erasure endurance The programming and erasure endurance is defined on a per-block basis. If the programming and erasure endurance is n (n = 1,000), each block can be erased n times. For example, if 1,024 1-byte writes are performed to different addresses in block A, a 1 Kbyte block, and then the block is erased, the programming/erasure endurance still stands at one. However, the same address must not be programmed more than once per erase operation (overwriting prohibited). 3. Endurance to guarantee all electrical characteristics after program and erase. (1 to Min. value can be guaranteed). 4. In a system that executes multiple programming operations, the actual erasure count can be reduced by writing to sequential addresses in turn so that as much of the block as possible is used up before performing an erase operation. For example, when programming groups of 16 bytes, the effective number of rewrites can be minimized by programming up to 128 groups before erasing them all in one operation. It is also advisable to retain data on the erasure endurance of each block and limit the number of erase operations to a certain number. 5. If an error occurs during block erase, attempt to execute the clear status register command, then execute the block erase command at least three times until the erase error does not occur. 6. Customers desiring program/erase failure rate information should contact their Renesas technical support representative. 7. The data hold time includes time that the power supply is off or the clock is not supplied. Suspend request (FMR21 bit) FST7 bit FST6 bit Fixed time Clock-dependent time Access restart td(SR-SUS) FST6, FST7: Bits in FST register FMR21: Bit in FMR2 register Figure 5.2 Time delay until Suspend REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 26 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.6 Symbol Vdet0 Voltage Detection 0 Circuit Electrical Characteristics Parameter Voltage detection level Vdet0_0 (2) Voltage detection level Vdet0_1 Voltage detection level Vdet0_2 (2) (2) Condition Standard Min. 1.80 2.15 2.70 3.55 Typ. 1.90 2.35 2.85 3.80 6 1.5 - Max. 2.05 2.50 3.05 4.05 150 - 100 Unit V V V V s A s Voltage detection level Vdet0_3 (2) - - td(E-A) Voltage detection 0 circuit response time (4) Voltage detection circuit self power consumption Waiting time until voltage detection circuit operation starts (3) At the falling of VCC from 5 V to (Vdet0_0 - 0.1) V VCA25 = 1, VCC = 5.0 V - - - Notes: 1. The measurement condition is VCC = 1.8 V to 5.5 V and Topr = -20 to 85C (N version) / -40 to 85C (D version). 2. Select the voltage detection level with bits VDSEL0 and VDSEL1 in the OFS register. 3. Necessary time until the voltage detection circuit operates when setting to 1 again after setting the VCA25 bit in the VCA2 register to 0. 4. Time until the voltage monitor 0 reset is generated after the voltage passes Vdet0. Table 5.7 Symbol Vdet1 Voltage Detection 1 Circuit Electrical Characteristics Parameter Voltage detection level Vdet1_0 (2) Voltage detection level Vdet1_1 (2) Condition At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC At the falling of VCC Vdet1_0 to Vdet1_5 selected Vdet1_6 to Vdet1_F selected Standard Min. 2.00 2.15 2.30 2.45 2.60 2.75 2.85 3.00 3.15 3.30 3.45 3.60 3.75 3.90 4.05 4.20 - - - - - Typ. 2.20 2.35 2.50 2.65 2.80 2.95 3.10 3.25 3.40 3.55 3.70 3.85 4.00 4.15 4.30 4.45 0.07 0.10 60 1.7 - Max. 2.40 2.55 2.70 2.85 3.00 3.15 3.40 3.55 3.70 3.85 4.00 4.15 4.30 4.45 4.60 4.75 - - 150 - 100 Unit V V V V V V V V V V V V V V V V V V s A s Voltage detection level Vdet1_2 (2) Voltage detection level Vdet1_3 (2) Voltage detection level Vdet1_4 Voltage detection level Vdet1_5 (2) (2) Voltage detection level Vdet1_6 (2) Voltage detection level Vdet1_7 (2) Voltage detection level Vdet1_8 (2) Voltage detection level Vdet1_9 Voltage detection level Vdet1_A (2) (2) Voltage detection level Vdet1_B (2) Voltage detection level Vdet1_C (2) Voltage detection level Vdet1_D Voltage detection level Vdet1_E - - - - td(E-A) Notes: 1. 2. 3. 4. Voltage detection 1 circuit response time (3) Voltage detection circuit self power consumption Waiting time until voltage detection circuit operation starts (4) (2) (2) Voltage detection level Vdet1_F (2) Hysteresis width at the rising of VCC in voltage detection 1 circuit At the falling of VCC from 5 V to (Vdet1_0 - 0.1) V VCA26 = 1, VCC = 5.0 V The measurement condition is VCC = 1.8 V to 5.5 V and Topr = -20 to 85C (N version) / -40 to 85C (D version). Select the voltage detection level with bits VD1S0 to VD1S3 in the VD1LS register. Time until the voltage monitor 1 interrupt request is generated after the voltage passes Vdet1. Necessary time until the voltage detection circuit operates when setting to 1 again after setting the VCA26 bit in the VCA2 register to 0. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 27 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.8 Symbol Vdet2 - - - td(E-A) Voltage Detection 2 Circuit Electrical Characteristics Parameter Voltage detection level Vdet2_0 Hysteresis width at the rising of VCC in voltage detection 2 circuit Voltage detection 2 circuit response time (2) Voltage detection circuit self power consumption Waiting time until voltage detection circuit operation starts (3) At the falling of VCC from 5 V to (Vdet2_0 - 0.1) V VCA27 = 1, VCC = 5.0 V Condition At the falling of VCC Standard Min. 3.70 - - - - Typ. 4.00 0.10 20 1.7 - Max. 4.30 - 150 - 100 Unit V V s A s Notes: 1. The measurement condition is VCC = 1.8 V to 5.5 V and Topr = -20 to 85C (N version) / -40 to 85C (D version). 2. Time until the voltage monitor 2 interrupt request is generated after the voltage passes Vdet2. 3. Necessary time until the voltage detection circuit operates after setting to 1 again after setting the VCA27 bit in the VCA2 register to 0. Table 5.9 Symbol trth Power-on Reset Circuit (2) Parameter External power VCC rise gradient (1) Condition Standard Min. 0 Typ. - Max. 50000 Unit mV/msec Notes: 1. The measurement condition is Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. 2. To use the power-on reset function, enable voltage monitor 0 reset by setting the LVDAS bit in the OFS register to 0. Vdet0 (1) trth External Power VCC 0.5 V tw(por) (2) Voltage detection 0 circuit response time trth Vdet0 (1) Internal reset signal 1 x 32 fOCO-S 1 x 32 fOCO-S Notes: 1. Vdet0 indicates the voltage detection level of the voltage detection 0 circuit. 2. tw(por) indicates the duration the external power VCC must be held below the valid voltage (0.5 V) to enable a power-on reset. When turning on the power after it falls with voltage monitor 0 reset disabled, maintain tw(por) for 1 ms or more. Figure 5.3 Power-on Reset Circuit Electrical Characteristics REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 28 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.10 Symbol - High-speed On-Chip Oscillator Circuit Electrical Characteristics Parameter High-speed on-chip oscillator frequency after reset Condition VCC = 1.8 V to 5.5 V -20C Topr 85C VCC = 1.8 V to 5.5 V -40C Topr 85C High-speed on-chip oscillator frequency when the FRA4 register correction value is written into the FRA1 register and the FRA5 register correction value into the FRA3 register (2) High-speed on-chip oscillator frequency when the FRA6 register correction value is written into the FRA1 register and the FRA7 register correction value into the FRA3 register VCC = 1.8 V to 5.5 V -20C Topr 85C VCC = 1.8 V to 5.5 V -40C Topr 85C VCC = 1.8 V to 5.5 V -20C Topr 85C VCC = 1.8 V to 5.5 V -40C Topr 85C VCC = 5.0 V, Topr = 25C VCC = 5.0 V, Topr = 25C Standard Min. 38.4 38.0 35.389 35.020 30.72 30.40 - - Typ. 40 40 36.864 36.864 32 32 0.5 400 Max. 41.6 42.0 38.338 38.707 33.28 33.60 3 - Unit MHz MHz MHz MHz MHz MHz ms A - - Oscillation stability time Self power consumption at oscillation Notes: 1. VCC = 1.8 V to 5.5 V, Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. 2. This enables the setting errors of bit rates such as 9600 bps and 38400 bps to be 0% when the serial interface is used in UART mode. Table 5.11 Symbol fOCO-S - - Low-speed On-Chip Oscillator Circuit Electrical Characteristics Parameter Low-speed on-chip oscillator frequency Oscillation stability time Self power consumption at oscillation VCC = 5.0 V, Topr = 25C VCC = 5.0 V, Topr = 25C Condition Standard Min. 60 - - Typ. 125 30 2 Max. 250 100 - Unit kHz s A Note: 1. VCC = 1.8 to 5.5 V, Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified. Table 5.12 Symbol td(P-R) Power Supply Circuit Timing Characteristics Parameter Time for internal power supply stabilization during power-on (2) Condition Standard Min. - Typ. - Max. 2000 Unit s Notes: 1. The measurement condition is VCC = 1.8 to 5.5 V and Topr = 25C. 2. Waiting time until the internal power supply generation circuit stabilizes during power-on. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 29 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.13 Symbol VOH Electrical Characteristics (1) [4.2 V VCC 5.5 V] Parameter Condition Drive capacity High VCC = 5V IOH = -20 mA Drive capacity Low VCC = 5V XOUT VCC = 5 V Drive capacity Low VCC = 5V XOUT VCC = 5 V INT0, INT1, INT3, KI0, KI1, KI2, KI3, TRAIO, TRBO, TRCIOA, TRCIOB, TRCIOC, TRCIOD, TRCTRG, TRCCLK, ADTRG, RXD0, RXD2, CLK0, CLK2 RESET VI = 5 V, VCC = 5.0 V VI = 0 V, VCC = 5.0 V VI = 0 V, VCC = 5.0 V Other than XOUT IOH = -5 mA IOH = -200 A IOL = 5 mA IOL = 200 A Standard Min. VCC - 2.0 VCC - 2.0 1.0 - - - 0.1 Typ. - - - - - - 1.2 Max. VCC VCC VCC 2.0 2.0 0.5 - Unit V V V V V V V Output "H" voltage Output "L" voltage Hysteresis Other than XOUT VOL Drive capacity High VCC = 5V IOL = 20 mA VT+-VT- 0.1 - - 25 - - During stop mode 1.8 1.2 - - 50 0.3 8 - - 5.0 -5.0 V A A IIH IIL RfXIN RfXCIN VRAM Input "H" current Input "L" current Feedback resistance Feedback resistance XIN XCIN RPULLUP Pull-up resistance 100 - - - k M M V RAM hold voltage Note: 1. 4.2 V VCC 5.5 V at Topr = -20 to 85C (N version) / -40 to 85C (D version), f(XIN) = 20 MHz, unless otherwise specified. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 30 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.14 Symbol ICC Electrical Characteristics (2) [3.3 V VCC 5.5 V] (Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified.) Parameter Condition XIN = 20 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz No division XIN = 16 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz No division XIN = 10 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz No division XIN = 20 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN = 16 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN = 10 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 20 MHz Low-speed on-chip oscillator on = 125 kHz No division XIN clock off High-speed on-chip oscillator on fOCO-F = 20 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 4 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-16 MSTTRC = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8, FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division Program operation on RAM Flash memory off, FMSTP = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock operation VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock off VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz (peripheral clock off) While a WAIT instruction is executed VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off, Topr = 25C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 XIN clock off, Topr = 85C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 Power supply High-speed current clock mode (VCC = 3.3 to 5.5 V) Single-chip mode, output pins are open, other pins are VSS Min. - Standard Typ. Max. 6.5 15 Unit mA - 5.3 12.5 mA - 3.6 - mA - 3.0 - mA - 2.2 - mA - 1.5 - mA High-speed on-chip oscillator mode - 7.0 15 mA - 3.0 - mA - 1 - mA Low-speed on-chip oscillator mode Low-speed clock mode - 90 400 A - 85 400 A - 47 - A Wait mode - 15 100 A - 4 90 A - 3.5 - A Stop mode - 2.0 5.0 A - 5.0 - A REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 31 of 42 R8C/33D Group Timing Requirements (Unless Otherwise Specified: VCC = 5 V, VSS = 0 V at Topr = 25C) Table 5.15 Symbol tc(XOUT) tWH(XOUT) tWL(XOUT) tc(XCIN) tWH(XCIN) tWL(XCIN) XOUT input cycle time XOUT input "H" width XOUT input "L" width XCIN input cycle time XCIN input "H" width XCIN input "L" width 5. Electrical Characteristics External Clock Input (XOUT, XCIN) Parameter Standard Min. 50 24 24 14 7 7 Max. - - - - - - Unit ns ns ns s s s tC(XOUT), tC(XCIN) tWH(XOUT), tWH(XCIN) VCC = 5 V External Clock Input tWL(XOUT), tWL(XCIN) Figure 5.4 External Clock Input Timing Diagram when VCC = 5 V Table 5.16 Symbol tc(TRAIO) tWH(TRAIO) tWL(TRAIO) TRAIO Input Parameter TRAIO input cycle time TRAIO input "H" width TRAIO input "L" width Standard Min. 100 40 40 Max. - - - Unit ns ns ns tC(TRAIO) tWH(TRAIO) VCC = 5 V TRAIO input tWL(TRAIO) Figure 5.5 TRAIO Input Timing Diagram when VCC = 5 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 32 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.17 Symbol tc(CK) tW(CKH) tW(CKL) td(C-Q) th(C-Q) tsu(D-C) th(C-D) i = 0, 2 Serial Interface Parameter CLKi input cycle time CLKi input "H" width CLKi input "L" width TXDi output delay time TXDi hold time RXDi input setup time RXDi input hold time Standard Min. 200 100 100 - 0 50 90 Max. - - - 50 - - - Unit ns ns ns ns ns ns ns tC(CK) tW(CKH) VCC = 5 V CLKi tW(CKL) th(C-Q) TXDi td(C-Q) tsu(D-C) th(C-D) RXDi i = 0, 2 Figure 5.6 Serial Interface Timing Diagram when VCC = 5 V Table 5.18 Symbol tW(INH) tW(INL) External Interrupt INTi (i = 0, 1, 3) Input, Key Input Interrupt KIi (i = 0 to 3) Parameter INTi input "H" width, KIi input "H" width INTi input "L" width, KIi input "L" width Standard Min. 250 (1) 250 (2) Max. - - Unit ns ns Notes: 1. When selecting the digital filter by the INTi input filter select bit, use an INTi input HIGH width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. 2. When selecting the digital filter by the INTi input filter select bit, use an INTi input LOW width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. VCC = 5 V INTi input (i = 0, 1, 3) KIi input (i = 0 to 3) tW(INL) tW(INH) Figure 5.7 Input Timing for External Interrupt INTi and Key Input Interrupt KIi when VCC = 5 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 33 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.19 Symbol VOH Electrical Characteristics (3) [2.7 V VCC < 4.2 V] Parameter Condition Drive capacity High IOH = -5 mA Drive capacity Low XOUT IOH = -1 mA IOH = -200 A Drive capacity High IOL = 5 mA Drive capacity Low XOUT IOL = 1 mA IOL = 200 A VCC = 3.0 V Standard Min. VCC - 0.5 VCC - 0.5 1.0 - - - 0.1 Typ. - - - - - - 0.4 Max. VCC VCC VCC 0.5 0.5 0.5 - Unit V V V V V V V Output "H" voltage Other than XOUT VOL Output "L" voltage Other than XOUT VT+-VT- Hysteresis INT0, INT1, INT3, KI0, KI1, KI2, KI3, TRAIO, TRBO, TRCIOA, TRCIOB, TRCIOC, TRCIOD, TRCTRG, TRCCLK, ADTRG, RXD0, RXD2, CLK0, CLK2 RESET VCC = 3.0 V VI = 3 V, VCC = 3.0 V VI = 0 V, VCC = 3.0 V VI = 0 V, VCC = 3.0 V 0.1 - - 42 - - 0.5 - - 84 0.3 8 - - 4.0 -4.0 V A A IIH IIL RfXIN RfXCIN VRAM Input "H" current Input "L" current Feedback resistance Feedback resistance RAM hold voltage XIN XCIN RPULLUP Pull-up resistance 168 - - - k M M V During stop mode 1.8 Note: 1. 2.7 V VCC < 4.2 V at Topr = -20 to 85C (N version) / -40 to 85C (D version), f(XIN) = 10 MHz, unless otherwise specified. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 34 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.20 Symbol ICC Electrical Characteristics (4) [2.7 V VCC < 3.3 V] (Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified.) Parameter Condition XIN = 10 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz No division XIN = 10 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 20 MHz Low-speed on-chip oscillator on = 125 kHz No division XIN clock off High-speed on-chip oscillator on fOCO-F = 20 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 10 MHz Low-speed on-chip oscillator on = 125 kHz No division XIN clock off High-speed on-chip oscillator on fOCO-F = 10 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 4 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-16 MSTTRC = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8, FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division Program operation on RAM Flash memory off, FMSTP = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock operation VCA27 = VCA26 = VCA25 = 0, VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock off VCA27 = VCA26 = VCA25 = 0, VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz (peripheral clock off) While a WAIT instruction is executed VCA27 = VCA26 = VCA25 = 0, VCA20 = 1 XIN clock off, Topr = 25C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 XIN clock off, Topr = 85C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 Min. - Standard Typ. Max. 3.5 10 Unit mA Power supply current High-speed clock mode (VCC = 2.7 to 3.3 V) Single-chip mode, output pins are open, other pins are VSS High-speed on-chip oscillator mode - 1.5 7.5 mA - 7.0 15 mA - 3.0 - mA - 4.0 - mA - 1.5 - mA - 1 - mA Low-speed on-chip oscillator mode Low-speed clock mode - 90 390 A - 80 400 A - 40 - A Wait mode - 15 90 A - 4 80 A - 3.5 - A Stop mode - 2.0 5.0 A - 5.0 - A REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 35 of 42 R8C/33D Group Timing requirements (Unless Otherwise Specified: VCC = 3 V, VSS = 0 V at Topr = 25C) Table 5.21 Symbol tc(XOUT) tWH(XOUT) tWL(XOUT) tc(XCIN) tWH(XCIN) tWL(XCIN) XOUT input cycle time XOUT input "H" width XOUT input "L" width XCIN input cycle time XCIN input "H" width XCIN input "L" width 5. Electrical Characteristics External Clock Input (XOUT, XCIN) Parameter Standard Min. 50 24 24 14 7 7 Max. - - - - - - Unit ns ns ns s s s tC(XOUT), tC(XCIN) tWH(XOUT), tWH(XCIN) VCC = 3 V External Clock Input tWL(XOUT), tWL(XCIN) Figure 5.8 External Clock Input Timing Diagram when VCC = 3 V Table 5.22 Symbol tc(TRAIO) tWH(TRAIO) tWL(TRAIO) TRAIO Input Parameter TRAIO input cycle time TRAIO input "H" width TRAIO input "L" width Standard Min. 300 120 120 Max. - - - Unit ns ns ns tC(TRAIO) tWH(TRAIO) VCC = 3 V TRAIO input tWL(TRAIO) Figure 5.9 TRAIO Input Timing Diagram when VCC = 3 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 36 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.23 Symbol tc(CK) tW(CKH) tW(CKL) td(C-Q) th(C-Q) tsu(D-C) th(C-D) i = 0, 2 Serial Interface Parameter CLKi input cycle time CLKi input "H" width CLKi Input "L" width TXDi output delay time TXDi hold time RXDi input setup time RXDi input hold time Standard Min. 300 150 150 - 0 70 90 Max. - - - 80 - - - Unit ns ns ns ns ns ns ns tC(CK) tW(CKH) VCC = 3 V CLKi tW(CKL) th(C-Q) TXDi td(C-Q) tsu(D-C) th(C-D) RXDi i = 0, 2 Figure 5.10 Serial Interface Timing Diagram when VCC = 3 V Table 5.24 Symbol tW(INH) tW(INL) External Interrupt INTi (i = 0, 1, 3) Input, Key Input Interrupt KIi (i = 0 to 3) Parameter INTi input "H" width, KIi input "H" width INTi input "L" width, KIi input "L" width Standard Min. 380 (1) 380 (2) Max. - - Unit ns ns Notes: 1. When selecting the digital filter by the INTi input filter select bit, use an INTi input HIGH width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. 2. When selecting the digital filter by the INTi input filter select bit, use an INTi input LOW width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. INTi input (i = 0, 1, 3) KIi input (i = 0 to 3) VCC = 3 V tW(INL) tW(INH) Figure 5.11 Input Timing for External Interrupt INTi and Key Input Interrupt KIi when VCC = 3 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 37 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.25 Symbol VOH Electrical Characteristics (5) [1.8 V VCC < 2.7 V] Parameter Condition Drive capacity High IOH = -2 mA Drive capacity Low XOUT IOH = -1 mA IOH = -200 A Drive capacity High IOL = 2 mA Drive capacity Low XOUT IOL = 1 mA IOL = 200 A Standard Min. VCC - 0.5 VCC - 0.5 1.0 - - - 0.05 Typ. - - - - - - 0.20 Max. VCC VCC VCC 0.5 0.5 0.5 - Unit V V V V V V V Output "H" voltage Other than XOUT VOL Output "L" voltage Other than XOUT VT+-VT- Hysteresis INT0, INT1, INT3, KI0, KI1, KI2, KI3, TRAIO, TRBO, TRCIOA, TRCIOB, TRCIOC, TRCIOD, TRCTRG, TRCCLK, ADTRG, RXD0, RXD2, CLK0, CLK2 RESET VI = 2.2 V, VCC = 2.2 V VI = 0 V, VCC = 2.2 V VI = 0 V, VCC = 2.2 V XIN XCIN During stop mode 0.05 - - 70 - - 1.8 0.20 - - 140 0.3 8 - - 4.0 -4.0 V A A IIH IIL RfXIN RfXCIN VRAM Input "H" current Input "L" current Feedback resistance Feedback resistance RAM hold voltage RPULLUP Pull-up resistance 300 - - - k M M V Note: 1. 1.8 V VCC < 2.7 V at Topr = -20 to 85C (N version) / -40 to 85C (D version), f(XIN) = 5 MHz, unless otherwise specified. REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 38 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.26 Symbol ICC Electrical Characteristics (6) [1.8 V VCC < 2.7 V] (Topr = -20 to 85C (N version) / -40 to 85C (D version), unless otherwise specified.) Parameter Condition XIN = 5 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz No division XIN = 5 MHz (square wave) High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 5 MHz Low-speed on-chip oscillator on = 125 kHz No division XIN clock off High-speed on-chip oscillator on fOCO-F = 5 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-8 XIN clock off High-speed on-chip oscillator on fOCO-F = 4 MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-16 MSTTRC = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz Divide-by-8, FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division FMR27 = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz No division Program operation on RAM Flash memory off, FMSTP = 1, VCA20 = 0 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock operation VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator on = 125 kHz While a WAIT instruction is executed Peripheral clock off VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off High-speed on-chip oscillator off Low-speed on-chip oscillator off XCIN clock oscillator on = 32 kHz (peripheral clock off) While a WAIT instruction is executed VCA27 = VCA26 = VCA25 = 0 VCA20 = 1 XIN clock off, Topr = 25C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 XIN clock off, Topr = 85C High-speed on-chip oscillator off Low-speed on-chip oscillator off CM10 = 1 Peripheral clock off VCA27 = VCA26 = VCA25 = 0 Min. - Standard Typ. Max. 2.2 - Unit mA Power supply current High-speed (VCC = 1.8 to 2.7 V) clock mode Single-chip mode, output pins are open, other pins are VSS - 0.8 - mA High-speed on-chip oscillator mode - 2.5 10 mA - 1.7 - mA - 1 - mA Low-speed on-chip oscillator mode Low-speed clock mode - 90 300 A - 80 350 A - 40 - A Wait mode - 15 90 A - 4 80 A - 3.5 - A Stop mode - 2.0 5 A - 5.0 - A REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 39 of 42 R8C/33D Group Timing requirements (Unless Otherwise Specified: VCC = 2.2 V, VSS = 0 V at Topr = 25C) Table 5.27 Symbol tc(XOUT) tWH(XOUT) tWL(XOUT) tc(XCIN) tWH(XCIN) tWL(XCIN) XOUT input cycle time XOUT input "H" width XOUT input "L" width XCIN input cycle time XCIN input "H" width XCIN input "L" width 5. Electrical Characteristics External Clock Input (XOUT, XCIN) Parameter Standard Min. 200 90 90 14 7 7 Max. - - - - - - Unit ns ns ns s s s tC(XOUT), tC(XCIN) tWH(XOUT), tWH(XCIN) VCC = 2.2 V External Clock Input tWL(XOUT), tWL(XCIN) Figure 5.12 External Clock Input Timing Diagram when VCC = 2.2 V Table 5.28 Symbol tc(TRAIO) tWH(TRAIO) tWL(TRAIO) TRAIO Input Parameter TRAIO input cycle time TRAIO input "H" width TRAIO input "L" width Standard Min. 500 200 200 Max. - - - Unit ns ns ns tC(TRAIO) tWH(TRAIO) VCC = 2.2 V TRAIO input tWL(TRAIO) Figure 5.13 TRAIO Input Timing Diagram when VCC = 2.2 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 40 of 42 R8C/33D Group 5. Electrical Characteristics Table 5.29 Symbol tc(CK) tW(CKH) tW(CKL) td(C-Q) th(C-Q) tsu(D-C) th(C-D) i = 0, 2 Serial Interface Parameter CLKi input cycle time CLKi input "H" width CLKi input "L" width TXDi output delay time TXDi hold time RXDi input setup time RXDi input hold time Standard Min. 800 400 400 - 0 150 90 Max. - - - 200 - - - Unit ns ns ns ns ns ns ns tC(CK) tW(CKH) VCC = 2.2 V CLKi tW(CKL) th(C-Q) TXDi td(C-Q) tsu(D-C) th(C-D) RXDi i = 0, 2 Figure 5.14 Serial Interface Timing Diagram when VCC = 2.2 V Table 5.30 Symbol tW(INH) tW(INL) External Interrupt INTi (i = 0, 1, 3) Input, Key Input Interrupt KIi (i = 0 to 3) Parameter INTi input "H" width, KIi input "H" width INTi input "L" width, KIi input "L" width Standard Min. 1000 (1) 1000 (2) Max. - - Unit ns ns Notes: 1. When selecting the digital filter by the INTi input filter select bit, use an INTi input HIGH width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. 2. When selecting the digital filter by the INTi input filter select bit, use an INTi input LOW width of either (1/digital filter clock frequency x 3) or the minimum value of standard, whichever is greater. INTi input (i = 0, 1, 3) KIi input (i = 0 to 3) VCC = 2.2 V tW(INL) tW(INH) Figure 5.15 Input Timing for External Interrupt INTi and Key Input Interrupt KIi when VCC = 2.2 V REJ03B0287-0100 Rev.1.00 Mar 31, 2010 Page 41 of 42 R8C/33D Group Package Dimensions Package Dimensions Diagrams showing the latest package dimensions and mounting information are available in the "Packages" section of the Renesas Electronics website. JEITA Package Code P-LQFP32-7x7-0.80 RENESAS Code PLQP0032GB-A Previous Code 32P6U-A MASS[Typ.] 0.2g HD *1 D 24 17 NOTE) 1. DIMENSIONS "*1" AND "*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION "*3" DOES NOT INCLUDE TRIM OFFSET. bp b1 25 16 HE E c1 *2 c Reference Symbol Dimension in Millimeters Terminal cross section 32 1 ZD Index mark 8 ZE 9 A2 A F A1 L L1 D E A2 HD HE A A1 bp b1 c c1 e x y ZD ZE L L1 y e *3 Detail F bp x Min Nom Max 6.9 7.0 7.1 6.9 7.0 7.1 1.4 8.8 9.0 9.2 8.8 9.0 9.2 1.7 0.1 0.2 0 0.32 0.37 0.42 0.35 0.09 0.145 0.20 0.125 0 8 0.8 0.20 0.10 0.7 0.7 0.3 0.5 0.7 1.0 REJ03B0287-0100 Rev.1.00 Mar 31, 2010 c Page 42 of 42 REVISION HISTORY R8C/33D Group Datasheet Description Summary Rev. Date Page 0.01 1.00 Sep 10, 2009 Mar 31, 2010 -- All pages 4 22 to 41 First Edition issued "Preliminary", "Under development" deleted Table 1.3 revised "5. Electrical Characteristics" added All trademarks and registered trademarks are the property of their respective owners. C-1 General Precautions in the Handling of MPU/MCU Products The following usage notes are applicable to all MPU/MCU products from Renesas. For detailed usage notes on the products covered by this manual, refer to the relevant sections of the manual. If the descriptions under General Precautions in the Handling of MPU/MCU Products and in the body of the manual differ from each other, the description in the body of the manual takes precedence. 1. Handling of Unused Pins Handle unused pins in accord with the directions given under Handling of Unused Pins in the manual. The input pins of CMOS products are generally in the high-impedance state. In operation with an unused pin in the open-circuit state, extra electromagnetic noise is induced in the vicinity of LSI, an associated shoot-through current flows internally, and malfunctions occur due to the false recognition of the pin state as an input signal become possible. Unused pins should be handled as described under Handling of Unused Pins in the manual. 2. Processing at Power-on The state of the product is undefined at the moment when power is supplied. The states of internal circuits in the LSI are indeterminate and the states of register settings and pins are undefined at the moment when power is supplied. In a finished product where the reset signal is applied to the external reset pin, the states of pins are not guaranteed from the moment when power is supplied until the reset process is completed. In a similar way, the states of pins in a product that is reset by an on-chip power-on reset function are not guaranteed from the moment when power is supplied until the power reaches the level at which resetting has been specified. 3. Prohibition of Access to Reserved Addresses Access to reserved addresses is prohibited. The reserved addresses are provided for the possible future expansion of functions. Do not access these addresses; the correct operation of LSI is not guaranteed if they are accessed. 4. Clock Signals After applying a reset, only release the reset line after the operating clock signal has become stable. When switching the clock signal during program execution, wait until the target clock signal has stabilized. When the clock signal is generated with an external resonator (or from an external oscillator) during a reset, ensure that the reset line is only released after full stabilization of the clock signal. Moreover, when switching to a clock signal produced with an external resonator (or by an external oscillator) while program execution is in progress, wait until the target clock signal is stable. 5. Differences between Products Before changing from one product to another, i.e. to one with a different part number, confirm that the change will not lead to problems. The characteristics of MPU/MCU in the same group but having different part numbers may differ because of the differences in internal memory capacity and layout pattern. When changing to products of different part numbers, implement a system-evaluation test for each of the products. Notice 1. All information included in this document is current as of the date this document is issued. Such information, however, is subject to change without any prior notice. Before purchasing or using any Renesas Electronics products listed herein, please confirm the latest product information with a Renesas Electronics sales office. Also, please pay regular and careful attention to additional and different information to be disclosed by Renesas Electronics such as that disclosed through our website. 2. Renesas Electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. 3. 4. You should not alter, modify, copy, or otherwise misappropriate any Renesas Electronics product, whether in whole or in part. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. 5. When exporting the products or technology described in this document, you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations. You should not use Renesas Electronics products or the technology described in this document for any purpose relating to military applications or use by the military, including but not limited to the development of weapons of mass destruction. Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. 6. Renesas Electronics has used reasonable care in preparing the information included in this document, but Renesas Electronics does not warrant that such information is error free. Renesas Electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein. 7. Renesas Electronics products are classified according to the following three quality grades: "Standard", "High Quality", and "Specific". The recommended applications for each Renesas Electronics product depends on the product's quality grade, as indicated below. You must check the quality grade of each Renesas Electronics product before using it in a particular application. You may not use any Renesas Electronics product for any application categorized as "Specific" without the prior written consent of Renesas Electronics. Further, you may not use any Renesas Electronics product for any application for which it is not intended without the prior written consent of Renesas Electronics. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for an application categorized as "Specific" or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics. The quality grade of each Renesas Electronics product is "Standard" unless otherwise expressly specified in a Renesas Electronics data sheets or data books, etc. "Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; and industrial robots. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; anti-crime systems; safety equipment; and medical equipment not specifically designed for life support. "Specific": Aircraft; aerospace equipment; submersible repeaters; nuclear reactor control systems; medical equipment or systems for life support (e.g. artificial life support devices or systems), surgical implantations, or healthcare intervention (e.g. excision, etc.), and any other applications or purposes that pose a direct threat to human life. 8. You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics, especially with respect to the maximum rating, operating supply voltage range, movement power voltage range, heat radiation characteristics, installation and other product characteristics. Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges. 9. Although Renesas Electronics endeavors to improve the quality and reliability of its products, semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Further, Renesas Electronics products are not subject to radiation resistance design. Please be sure to implement safety measures to guard them against the possibility of physical injury, and injury or damage caused by fire in the event of the failure of a Renesas Electronics product, such as safety design for hardware and software including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult, please evaluate the safety of the final products or system manufactured by you. 10. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. 11. This document may not be reproduced or duplicated, in any form, in whole or in part, without prior written consent of Renesas Electronics. 12. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products, or if you have any other inquiries. (Note 1) (Note 2) "Renesas Electronics" as used in this document means Renesas Electronics Corporation and also includes its majority-owned subsidiaries. "Renesas Electronics product(s)" means any product developed or manufactured by or for Renesas Electronics. SALES OFFICES Refer to "http://www.renesas.com/" for the latest and detailed information. Renesas Electronics America Inc. 2880 Scott Boulevard Santa Clara, CA 95050-2554, U.S.A. Tel: +1-408-588-6000, Fax: +1-408-588-6130 Renesas Electronics Canada Limited 1101 Nicholson Road, Newmarket, Ontario L3Y 9C3, Canada Tel: +1-905-898-5441, Fax: +1-905-898-3220 Renesas Electronics Europe Limited Dukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K Tel: +44-1628-585-100, Fax: +44-1628-585-900 Renesas Electronics Europe GmbH Arcadiastrasse 10, 40472 Dusseldorf, Germany Tel: +49-211-65030, Fax: +49-211-6503-1327 Renesas Electronics (China) Co., Ltd. 7th Floor, Quantum Plaza, No.27 ZhiChunLu Haidian District, Beijing 100083, P.R.China Tel: +86-10-8235-1155, Fax: +86-10-8235-7679 Renesas Electronics (Shanghai) Co., Ltd. Unit 204, 205, AZIA Center, No.1233 Lujiazui Ring Rd., Pudong District, Shanghai 200120, China Tel: +86-21-5877-1818, Fax: +86-21-6887-7858 / -7898 Renesas Electronics Hong Kong Limited Unit 1601-1613, 16/F., Tower 2, Grand Century Place, 193 Prince Edward Road West, Mongkok, Kowloon, Hong Kong Tel: +852-2886-9318, Fax: +852 2886-9022/9044 Renesas Electronics Taiwan Co., Ltd. 7F, No. 363 Fu Shing North Road Taipei, Taiwan Tel: +886-2-8175-9600, Fax: +886 2-8175-9670 Renesas Electronics Singapore Pte. Ltd. 1 harbourFront Avenue, #06-10, keppel Bay Tower, Singapore 098632 Tel: +65-6213-0200, Fax: +65-6278-8001 Renesas Electronics Malaysia Sdn.Bhd. 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