MB95200H/210H Series F2MC-8FX 8-bit Microcontroller MB95200H/210H is a series of general-purpose, single-chip microcontrollers. In addition to a compact instruction set, the microcontrollers of this series contain a variety of peripheral resources. Features F2MC-8FX CPU core Low power consumption (standby) mode Instruction set optimized for controllers ■ Stop mode ■ Multiplication and division instructions ■ Sleep mode ■ 16-bit arithmetic operations ■ Watch mode ■ Bit test branch instructions ■ Timebase timer mode ■ Bit manipulation instructions, etc. I/O port (Max: 17) (MB95F204K/F203K/F202K) Clock (main OSC clock and sub-OSC clock are only available in MB95F204H/F204K/F203H/F203K/F202H /F202K) ■ ■ Selectable main clock source ❐ Main OSC clock (up to 16.25 MHz, maximum machine clock frequency: 8.125 MHz) ❐ External clock (up to 32.5 MHz, maximum machine clock frequency: 16.25 MHz) ❐ Main internal CR clock (1/8/10 MHz ± 3%, maximum machine clock frequency: 10 MHz) Selectable subclock source Sub-OSC clock (32.768 kHz) ❐ External clock (32.768 kHz) ❐ Sub-internal CR clock (Typ: 100 kHz, Min: 50 kHz, Max: 200 kHz) ❐ Timer ■ 8/16-bit composite timer ■ Timebase timer ■ Watch prescaler Full duplex double buffer Capable of clock-synchronized serial data transfer and clock-asynchronized serial data transfer ❐ I/O port (Max: 16) (MB95F204H/F203H/F202H) ■ General-purpose I/O ports (Max): CMOS I/O: 15, N-ch open drain: 1 I/O port (Max: 5) (MB95F214K/F213K/F212K) ■ General-purpose I/O ports (Max): CMOS I/O: 3, N-ch open drain: 2 I/O port (Max: 4) (MB95F214H/F213H/F212H) ■ General-purpose I/O ports (Max): CMOS I/O: 3, N-ch open drain: 1 On-chip debug ■ 1-wire serial control ■ Serial writing supported (asynchronous mode) ■ ■ Interrupt by edge detection (rising edge, falling edge, and both edges can be selected) ■ Can be used to wake up the device from different low-power consumption (standby) modes ■ Built-in low-voltage detector Clock supervisor counter Built-in clock supervisor counter function Programmable port input voltage level ■ CMOS input level / hysteresis input level Flash memory security function ■ 8/10-bit A/D converter Built-in hardware watchdog timer Low-voltage detection reset circuit ■ External interrupt ■ General-purpose I/O ports (Max): CMOS I/O: 15, N-ch open drain: 2 Hardware/software watchdog timer LIN-UART (MB95F204H/F204K/F203H/F203K/F202H /F202K) ■ ■ Protects the contents of flash memory 8-bit or 10-bit resolution can be selected. Cypress Semiconductor Corporation Document Number: 002-07463 Rev. *B • 198 Champion Court • San Jose, CA 95134-1709 • 408-943-2600 Revised August 24, 2017 MB95200H/210H Series Contents Product Line-up ................................................................ 3 Packages and Corresponding Products ........................ 4 Differences Among Products And Notes On Product Selection ....................................................... 4 Pin Assignment ................................................................ 5 Pin Description (MB95200H Series 24 pins) .................. 6 Pin Description (MB95200H Series 20 pins) .................. 8 Pin Description (MB95210H Series) .............................. 10 I/O Circuit Type ............................................................... 11 Notes on Device Handling ............................................. 13 Pin Connection ............................................................... 13 Block Diagram (MB95200H Series) ............................... 15 Block Diagram (MB95210H Series) ............................... 16 CPU Core ......................................................................... 17 I/O Map (MB95200H Series) ........................................... 18 I/O Map (MB95210H Series) ........................................... 22 Document Number: 002-07463 Rev. *B Interrupt Source Table (MB95200H Series) .................. 26 Interrupt Source Table (MB95210H Series) .................. 27 Electrical Characteristics ............................................... 28 Absolute Maximum Ratings ....................................... 28 Recommended Operating Conditions ....................... 30 DC Characteristics .................................................... 31 AC Characteristics ..................................................... 34 A/D Converter ............................................................ 49 Flash Memory Program/Erase Characteristics .......... 53 Sample Electrical Characteristics ................................. 54 Mask Options .................................................................. 60 Ordering Information ...................................................... 60 Package Dimensions ...................................................... 61 Major Changes ................................................................ 65 Document History ........................................................... 65 Page 2 of 66 MB95200H/210H Series 1. Product Line-up Part number Parameter Type MB95 F204H MB95 F203H MB95 F202H MB95 F204K MB95 F203K MB95 F202K MB95 F214H MB95 F213H MB95 F212H MB95 F214K MB95 F213K MB95 F212K Flash memory product Clock supervisor It supervises the main clock oscillation. counter ROM capacity 16 KB 8 KB 4 KB 16 KB 8 KB 4 KB 16 KB 8 KB 4 KB 16 KB 8 KB 4 KB RAM capacity 496 B 496 B 240 B 496 B 496 B 240 B 496 B 496 B 240 B 496 B 496 B 240 B Low-voltage detection reset No Yes Reset input Dedicated CPU functions Number of basic instructions Instruction bit length Instruction length Data bit length Minimum instruction execution time Interrupt processing time General-purpose I/O ports (Max): 16 I/O CMOS: 15, N-ch: 1 Timebase timer Software select No Dedicated Yes Software select : 136 : 8 bits : 1 to 3 bytes : 1, 8, and 16 bits : 61.5 ns (with machine clock = 16.25 MHz) : 0.6 µs (with machine clock = 16.25 MHz) I/O ports (Max): 17 CMOS: 15, N-ch: 2 I/O ports (Max): 4 CMOS: 3, N-ch: 1 I/O ports (Max): 5 CMOS: 3, N-ch: 2 Interrupt cycle : 0.256 ms - 8.3 s (when external clock = 4 MHz) Hardware/softwa Reset generation cycle Main oscillation clock at 10 MHz : 105 ms (Min) re watchdog The sub-CR clock can be used as the source clock of the hardware watchdog. timer Wild register It can be used to replace three bytes of data. LIN-UART A wide range of communication speed can be selected by a dedicated reload timer. It has a full duplex double buffer. Clock-synchronized serial data transfer and No LIN-UART clock-asynchronized serial data transfer is enabled. The LIN function can be used as a LIN master or a LIN slave. 8/10-bit A/D converter 6 ch. 8-bit or 10-bit resolution can be selected. 2 ch. 8/16-bit composite timer 2 ch. 1 ch. The timer can be configured as an "8-bit timer x 2 channels" or a "16-bit timer x 1 channel". It has built-in timer function, PWC function, PWM function and input capture function. Count clock: it can be selected from internal clocks (seven types) and external clocks. It can output square wave. 6 ch. 2 ch. External interrupt Interrupt by edge detection (rising edge, falling edge, or both edges can be selected.) It can be used to wake up the device from standby modes. On-chip debug 1-wire serial control It supports serial writing. (asynchronous mode) (Continued) Document Number: 002-07463 Rev. *B Page 3 of 66 MB95200H/210H Series (Continued) Part number Parameter MB95 F204H MB95 F203H MB95 F202H MB95 F204K MB95 F203K MB95 F202K MB95 F214H MB95 F213H MB95 F212H Watch prescaler Eight different time intervals can be selected. Flash memory It supports automatic programming, Embedded Algorithm, write/erase/erase-suspend/erase-resume commands. It has a flag indicating the completion of the operation of Embedded Algorithm. Number of write/erase cycles: 100000 Data retention time: 20 years For write/erase, external Vpp(+10 V) input is required. Flash Security Feature for protecting the contents of the flash Standby mode Sleep mode, stop mode, watch mode, timebase timer mode SDIP-24 SOP-20 Package MB95 F214K MB95 F213K MB95 F212K DIP-8 SOP-8 2. Packages and Corresponding Products Part number MB95 F204H MB95 F203H MB95 F202H MB95 F204K MB95 F203K MB95 F202K MB95 F214H MB95 F213H MB95 F212H MB95 F214K MB95 F213K MB95 F212K 24-pin plastic SDIP O O O O O O X X X X X X 20-pin plastic SOP O O O O O O X X X X X X 8-pin plastic DIP X X X X X X O O O O O O 8-pin plastic SOP X X X X X X O O O O O O Package O: Available X: Unavailable 3. Differences Among Products And Notes On Product Selection Current consumption When using the on-chip debug function, take account of the current consumption of flash erase/program. For details of current consumption, see “18.Electrical Characteristics”. Package For details of information on each package, see “ 2.Packages and Corresponding Products” and “22.Package Dimensions”. Operating voltage The operating voltage varies, depending on whether the on-chip debug function is used or not. For details of the operating voltage, see “18.Electrical Characteristics”. On-chip debug function The on-chip debug function requires that VCC, VSS and 1 serial-wire be connected to an evaluation tool. In addition, if the flash memory data has to be updated, the RSTX/PF2 pin must also be connected to the same evaluation tool. Document Number: 002-07463 Rev. *B Page 4 of 66 MB95200H/210H Series 4. Pin Assignment X0/PF0 1 24 P12/EC0/DBG N.C. 2 23 N.C. X1/PF1 3 (TOP VIEW) 22 P07/INT07 Vss 4 P06/INT06/TO01 X1A/PG2 5 24 pins (SDIP24) 21 20 P05/INT05/AN05/TO00/HCLK2 X0A/PG1 6 19 P04/INT04/AN04/SIN/HCLK1/EC0 Vcc 7 18 P03/INT03/AN03/SOT C 8 17 P02/INT02/AN02/SCK RSTX/PF2 9 16 P01/AN01 TO10/P62 10 15 P00/AN00 N.C. 11 14 N.C. TO11/P63 12 13 P64/EC1 X0/PF0 1 20 P12/EC0/DBG X1/PF1 2 19 P07/INT07 Vss 3 (TOP VIEW) 18 P06/INT06/TO01 X1A/PG2 4 P05/INT05/AN05/TO00/HCLK2 X0A/PG1 5 20 pins 17 16 P04/INT04/AN04/SIN/HCLK1/EC0 Vcc 6 15 P03/INT03/AN03/SOT C 7 14 P02/INT02/AN02/SCK RSTX/PF2 8 13 P01/AN01 TO10/P62 9 12 P00/AN00 TO11/P63 10 11 P64/EC1 Vss 1 Vcc 2 C 3 RSTX/PF2 4 Document Number: 002-07463 Rev. *B * The number of usable pins is 20. (TOP VIEW) 8 pins 8 P12/EC0/DBG 7 P06/INT06/TO01 6 P05/AN05/TO00/HCLK2 5 P04/INT04/AN04/HCLK1/EC0 Page 5 of 66 MB95200H/210H Series 5. Pin Description (MB95200H Series 24 pins) Pin no. 1 2 3 4 5 6 Pin name PF0 X0 N.C. PF1 X1 VSS PG2 X1A PG1 X0A I/O circuit type* B — B — C C Function General-purpose I/O port Main clock input oscillation pin It is an internally unconnected pin. Always leave it unconnected. General-purpose I/O port Main clock I/O oscillation pin Power supply pin (GND) General-purpose I/O port Subclock I/O oscillation pin General-purpose I/O port Subclock input oscillation pin 7 VCC — Power supply pin 8 C — Capacitor connection pin PF2 9 10 RSTX P62 General-purpose I/O port A D TO10 11 12 N.C. P63 14 15 16 P64 EC1 N.C. P00 AN00 P01 AN01 It is an internally unconnected pin. Always leave it unconnected. D General-purpose I/O port High-current port 8/16-bit composite timer ch. 1 output pin D — E E P02 17 INT02 AN02 SCK General-purpose I/O port High-current port 8/16-bit composite timer ch. 1 output pin TO11 13 Reset pin This is a dedicated reset pin in MB95F202H/F203H/F204H. General-purpose I/O port 8/16-bit composite timer ch. 1 clock input pin It is an internally unconnected pin. Always leave it unconnected. General-purpose I/O port A/D converter analog input pin General-purpose I/O port A/D converter analog input pin General-purpose I/O port E External interrupt input pin A/D converter analog input pin LIN-UART clock I/O pin (Continued) Document Number: 002-07463 Rev. *B Page 6 of 66 MB95200H/210H Series (Continued) Pin no. Pin name I/O circuit type* P03 18 19 INT03 AN03 General-purpose I/O port E P04 General-purpose I/O port INT04 External interrupt input pin AN04 SIN F 8/16-bit composite timer ch. 0 clock input pin P05 General-purpose I/O port High-current port AN05 External interrupt input pin E INT06 External clock input pin General-purpose I/O port High-current port G TO01 P07 INT07 N.C. External interrupt input pin 8/16-bit composite timer ch. 0 output pin G — P12 EC0 A/D converter analog input pin 8/16-bit composite timer ch. 0 output pin P06 24 LIN-UART data input pin EC0 HCLK2 23 A/D converter analog input pin External clock input pin TO00 22 A/D converter analog input pin LIN-UART data output pin INT05 21 External interrupt input pin SOT HCLK1 20 Function General-purpose I/O port External interrupt input pin It is an internally unconnected pin. Always leave it unconnected. General-purpose I/O port H DBG 8/16-bit composite timer ch. 0 clock input pin DBG input pin *: For the I/O circuit types, see “8.I/O Circuit Type”. Document Number: 002-07463 Rev. *B Page 7 of 66 MB95200H/210H Series 6. Pin Description (MB95200H Series 20 pins) Pin no. Pin name I/O circuit type* 1 PF0/X0 B General-purpose I/O port This pin is also used as the main clock input oscillation pin. 2 PF1/X1 B General-purpose I/O port This pin is also used as the main clock input/output oscillation pin. 3 VSS — Power supply pin (GND) 4 PG2/X1A C General-purpose I/O port This pin is also used as the subclock input/output oscillation pin. 5 PG1/X0A C General-purpose I/O port This pin is also used as the subclock input oscillation pin. 6 VCC — Power supply pin 7 C — Capacitor connection pin 8 PF2/RSTX A General-purpose I/O port This pin is also used as a reset pin. This pin is a dedicated reset pin in MB95F204H/F203H/F202H. 9 P62/TO10 D General-purpose I/O port High-current port This pin is also used as the 8/16-bit composite timer ch. 1 output. 10 P63/TO11 D General-purpose I/O port High-current port This pin is also used as the 8/16-bit composite timer ch. 1 output. 11 P64/EC1 D General-purpose I/O port This pin is also used as the 8/16-bit composite timer ch. 1 clock input. 12 P00/AN00 E General-purpose I/O port This pin is also used as the A/D converter analog input. 13 P01/AN01 E General-purpose I/O port This pin is also used as the A/D converter analog input. E General-purpose I/O port This pin is also used as the external interrupt input. This pin is also used as the A/D converter analog input. This pin is also used as the LIN-UART clock I/O. E General-purpose I/O port This pin is also used as the external interrupt input. This pin is also used as the A/D converter analog input. This pin is also used as the LIN-UART data output. F General-purpose I/O port This pin is also used as the external interrupt input. This pin is also used as the A/D converter analog input. This pin is also used as the LIN-UART data input. This pin is also used as the external clock input. This pin is also used as the 8/16-bit composite timer ch. 0 clock input. 14 15 16 P02/INT02/AN02/SCK P03/INT03/AN03/SOT P04/INT04/AN04/SIN /HCLK1/EC0 Function (Continued) Document Number: 002-07463 Rev. *B Page 8 of 66 MB95200H/210H Series (Continued) Pin no. 17 Pin name P05/INT05/AN05/TO00 /HCLK2 I/O circuit type* Function E General-purpose I/O port High-current port This pin is also used as the external interrupt input. This pin is also used as the A/D converter analog input. This pin is also used as the 8/16-bit composite timer ch. 0 output. This pin is also used as the external clock input. 18 P06/INT06/TO01 G General-purpose I/O port High-current port This pin is also used as the external interrupt input. This pin is also used as the 8/16-bit composite timer ch. 0 output. 19 P07/INT07 G General-purpose I/O port This pin is also used as the external interrupt input. 20 P12/EC0/DBG H General-purpose I/O port This pin is also used as the DBG input pin. This pin is also used as the 8/16-bit composite timer ch. 0 clock input. *: For the I/O circuit types, see “8.I/O Circuit Type” Document Number: 002-07463 Rev. *B Page 9 of 66 MB95200H/210H Series 7. Pin Description (MB95210H Series) Pin no. Pin name I/O circuit type* 1 VSS — Power supply pin (GND) 2 VCC — Power supply pin 3 C — Capacitor connection pin 4 RSTX/PF2 A General-purpose I/O port This pin is also used as a reset pin. This pin is a dedicated reset pin in MB95F214H/F213H/F212H. 5 P04/INT04/AN04/HCLK1 /EC0 E General-purpose I/O port This pin is also used as the external interrupt input. This pin is also used as the A/D converter analog input. This pin is also used as the external clock input. This pin is also used as the 8/16-bit composite timer ch. 0 clock input. Function 6 P05/AN05/TO00/HCLK2 E General-purpose I/O port High-current port This pin is also used as the A/D converter analog input. This pin is also used as the 8/16-bit composite timer ch. 0 output. This pin is also used as the external clock input. 7 P06/INT06/TO01 G General-purpose I/O port High-current port This pin is also used as the external interrupt input. This pin is also used as the 8/16-bit composite timer ch. 0 output. 8 P12/EC0/DBG H General-purpose I/O port This pin is also used as the DBG input pin. This pin is also used as the 8/16-bit composite timer ch. 0 clock input. *: For the I/O circuit types, see “8.I/O Circuit Type”. Document Number: 002-07463 Rev. *B Page 10 of 66 MB95200H/210H Series 8. I/O Circuit Type Type Circuit Remarks Reset input / Hysteresis output A Reset output / Digital output • N-ch open drain output • Hysteresis input • Reset output N-ch P-ch Port select Digital output N-ch Digital output Standby control Hysteresis input Clock input X1 B • Oscillation circuit • High-speed side Feedback resistance: approx. 1 MΩ • CMOS output • Hysteresis input X0 Standby control / Port select P-ch Port select Digital output N-ch Digital output Standby control Hysteresis input Port select R P-ch Pull-up control P-ch Digital output N-ch Digital output Standby control Hysteresis input Clock input X1A • Oscillation circuit • Low-speed side Feedback resistance: approx. 10 MΩ C • CMOS output • Hysteresis input • Pull-up control available X0A Standby control / Port select Port select R Pull-up control Digital output P-ch Digital output N-ch Digital output Standby control Hysteresis input (Continued) Document Number: 002-07463 Rev. *B Page 11 of 66 MB95200H/210H Series (Continued) Type Circuit Remarks D P-ch Digital output Digital output N-ch • CMOS output • Hysteresis input Standby control Hysteresis input E Pull-up control R P-ch Digital output P-ch Digital output N-ch • CMOS output • Hysteresis input • Pull-up control available Analog input A/D control Standby control Hysteresis input F Pull-up control R P-ch Digital output P-ch Digital output N-ch Analog input • • • • CMOS output Hysteresis input CMOS input Pull-up control available A/D control Standby control Hysteresis input CMOS input G Pull-up control R P-ch Digital output P-ch Digital output • Hysteresis input • CMOS output • Pull-up control available N-ch Standby control Hysteresis input H Standby control Hysteresis input • N-ch open drain output • Hysteresis input Digital output N-ch Document Number: 002-07463 Rev. *B Page 12 of 66 MB95200H/210H Series 9. Notes on Device Handling Preventing latch-ups When using the device, ensure that the voltage applied does not exceed the maximum voltage rating. In a CMOS IC, if a voltage higher than VCC or a voltage lower than VSS is applied to an input/output pin that is neither a medium-withstand voltage pin nor a high-withstand voltage pin, or if a voltage out of the rating range of power supply voltage mentioned in “18.1 Absolute Maximum Ratings” of Electrical Characteristics” is applied to the VCC pin or the VSS pin, a latch-up may occur. When a latch-up occurs, power supply current increases significantly, which may cause a component to be thermally destroyed. Stabilizing supply voltage Supply voltage must be stabilized. A malfunction may occur when power supply voltage fluctuates rapidly even though the fluctuation is within the guaranteed operating range of the VCC power supply voltage. As a rule of voltage stabilization, suppress voltage fluctuation so that the fluctuation in VCC ripple (p-p value) at the commercial frequency (50 Hz/60 Hz) does not exceed 10% of the standard VCC value, and the transient fluctuation rate does not exceed 0.1 V/ms at a momentary fluctuation such as switching the power supply. Notes on using the external clock When an external clock is used, oscillation stabilization wait time is required for power-on reset, wake-up from subclock mode or stop mode. 10. Pin Connection Treatment of unused pins If an unused input pin is left unconnected, a component may be permanently damaged due to malfunctions or latch-ups. Always pull up or pull down an unused input pin through a resistor of at least 2 k. Set an unused input/output pin to the output state and leave it unconnected, or set it to the input state and treat it the same as an unused input pin. If there is an unused output pin, leave it unconnected. Power supply pins To reduce unnecessary electro-magnetic emission, prevent malfunctions of strobe signals due to an increase in the ground level, and conform to the total output current standard, always connect the VCC pin and the VSS pin to the power supply and ground outside the device. In addition, connect the current supply source to the VCC pin and the VSS pin with low impedance. It is also advisable to connect a ceramic bypass capacitor of approximately 0.1 µF between the VCC pin and the VSS pin at a location close to this device. DBG pin Connect the DBG pin directly to an external pull-up resistor. To prevent the device from unintentionally entering the debug mode due to noise, minimize the distance between the DBG pin and the VCC or VSS pin when designing the layout of the printed circuit board. The DBG pin should not stay at “L” level after power-on until the reset output is released. RSTX pin Connect the RSTX pin directly to an external pull-up resistor. To prevent the device from unintentionally entering the reset mode due to noise, minimize the distance between the RSTX pin and the VCC or VSS pin when designing the layout of the printed circuit board. The RSTX/PF2 pin functions as the reset input/output pin after power-on. In addition, the reset output can be enabled by the RSTOE bit of the SYSC register, and the reset input function or the general purpose I/O function can be selected by the RSTEN bit of the SYSC register. Document Number: 002-07463 Rev. *B Page 13 of 66 MB95200H/210H Series C pin Use a ceramic capacitor or a capacitor with equivalent frequency characteristics. The bypass capacitor for the VCC pin must have a capacitance larger than CS. For the connection to a smoothing capacitor CS, see the diagram below. To prevent the device from unintentionally entering an unknown mode due to noise, minimize the distance between the C pin and CS and the distance between CS and the VSS pin when designing the layout of a printed circuit board. • DBG/RSTX/C pin connection diagram DBG C RSTX Cs Document Number: 002-07463 Rev. *B Page 14 of 66 MB95200H/210H Series 11. Block Diagram (MB95200H Series) F2MC-8FX CPU PF2*1/RSTX*2 Flash with security function (16/8/4 KB) Reset with LVD PF1/X1*2 RAM (496/240 B) PF0/X0*2 PG2/X1A*2 Oscillator circuit CR oscillator Interrupt controller PG1/X0A*2 (P05*3/TO00) (P04/HCLK1) 8/16-bit composite timer (0) Clock control (P06*3/TO01) (P05*3/HCLK2) P12*1/EC0, (P04/EC0) (P12/DBG) On-chip debug P02/INT02-P07/INT07 External interrupt Internal Bus (P00/AN00-P05*3/AN05) Wild register 8/10-bit A/D converter (P623/TO10) 8/16-bit composite timer (1) (P02/SCK) (P03/SOT) (P63*3/TO11) P64/EC1 LIN-UART (P04/SIN) C Port VCC *1: PF2 and P12 are Nch open drain pins. VSS *2: Software option Port *3: P05, P06, P62 and P63 are high-current ports. Document Number: 002-07463 Rev. *B Page 15 of 66 MB95200H/210H Series 12. Block Diagram (MB95210H Series) F2MC-8FX CPU PF2*1/RSTX*2 Flash with security function (16/8/4 KB) Reset with LVD RAM (496/240 B) CR oscillator Interrupt controller (P05*3/TO00) (P04/HCLK1) 8/16-bit composite timer (0) Clock control (P06*3/TO01) (P05*3/HCLK2) P12*1/EC0, (P04/EC0) (P12/DBG) On-chip debug P04/INT04, P06*3/INT06 External interrupt Internal Bus P05*3/AN05, (P04/AN04) Wild register 8/10-bit A/D converter C Port VCC *1: PF2 and P12 are Nch open drain pins. VSS *2: Software option Port *3: P05 and P06 are high-current ports. Document Number: 002-07463 Rev. *B Page 16 of 66 MB95200H/210H Series 13. CPU Core Memory Space The memory space of the MB95200H/210H Series is 64 KB in size, and consists of an I/O area, a data area, and a program area. The memory space includes areas intended for specific purposes such as general-purpose registers and a vector table. The memory maps of the MB95200H/210H Series are shown below. ■ Memory Maps MB95F204H/F204K /F214H/F214K 0000H 0080H 0090H 0100H I/O RAM 496 B Register 0200H 0000H 0080H 0090H 0100H I/O RAM 496 B Register Extension I/O 1000H 0280H 0F80H MB95F202H/F202K/ F212H/F212K 0000H 0080H 0090H 0100H I/O RAM 240 B Register 0180H 0200H 0280H 0F80H MB95F203H/F203K/ F213H/F213K Extension I/O 1000H 0F80H Extension I/O 1000H C000H - Flash 16 KB E000H Flash 8 KB F000H FFFFH Document Number: 002-07463 Rev. *B FFFFH Flash 4 KB FFFFH Page 17 of 66 MB95200H/210H Series 14. I/O Map (MB95200H Series) Address Register abbreviation 0000H PDR0 0001H Register name R/W Initial value Port 0 data register R/W 00000000B DDR0 Port 0 direction register R/W 00000000B 0002H PDR1 Port 1 data register R/W 00000000B 0003H DDR1 Port 1 direction register R/W 00000000B 0004H — — — 0005H WATR R/W 11111111B 0006H — — — 0007H SYCC System clock control register R/W XXXXXX11B 0008H STBC Standby control register R/W 00000XXXB 0009H RSRR Reset source register R XXXXXXXXB 000AH TBTC Timebase timer control register R/W 00000000B 000BH WPCR Watch prescaler control register R/W 00000000B 000CH WDTC Watchdog timer control register R/W 00000000B 000DH SYCC2 System clock control register 2 R/W XX100011B 000EH to 0015H — — — 0016H PDR6 Port 6 data register R/W 00000000B 0017H DDR6 Port 6 direction register R/W 00000000B 0018H to 0027H — — — 0028H PDRF Port F data register R/W 00000000B 0029H DDRF Port F direction register R/W 00000000B 002AH PDRG Port G data register R/W 00000000B 002BH DDRG Port G direction register R/W 00000000B 002CH PUL0 Port 0 pull-up register R/W 00000000B 002DH to 0034H — — — 0035H PULG Port G pull-up register R/W 00000000B 0036H T01CR1 8/16-bit composite timer 01 status control register 1 ch. 0 R/W 00000000B 0037H T00CR1 8/16-bit composite timer 00 status control register 1 ch. 0 R/W 00000000B 0038H T11CR1 8/16-bit composite timer 11 status control register 1 ch. 1 R/W 00000000B 0039H T10CR1 8/16-bit composite timer 10 status control register 1 ch. 1 R/W 00000000B 003AH to 0048H — — — 0049H EIC10 R/W 00000000B (Disabled) Oscillation stabilization wait time setting register (Disabled) (Disabled) (Disabled) (Disabled) (Disabled) External interrupt circuit control register ch. 2/ch. 3 (Continued) Document Number: 002-07463 Rev. *B Page 18 of 66 MB95200H/210H Series Address Register abbreviation 004AH EIC20 004BH EIC30 004CH to 004FH — 0050H SCR 0051H Register name R/W Initial value External interrupt circuit control register ch. 4/ch. 5 R/W 00000000B External interrupt circuit control register ch. 6/ch. 7 R/W 00000000B — — LIN-UART serial control register R/W 00000000B SMR LIN-UART serial mode register R/W 00000000B 0052H SSR LIN-UART serial status register R/W 00001000B 0053H RDR/TDR LIN-UART receive/transmit data register R/W 00000000B 0054H ESCR LIN-UART extended status control register R/W 00000100B 0055H ECCR LIN-UART extended communication control register R/W 000000XXB 0056H to 006BH — — — 006CH ADC1 8/10-bit A/D converter control register 1 R/W 00000000B 006DH ADC2 8/10-bit A/D converter control register 2 R/W 00000000B 006EH ADDH 8/10-bit A/D converter data register (Upper) R/W 00000000B 006FH ADDL 8/10-bit A/D converter data register (Lower) R/W 00000000B 0070H to 0071H — — — 0072H FSR R/W 000X0000B 0073H to 0075H — — — 0076H WREN Wild register address compare enable register R/W 00000000B 0077H WROR Wild register data test setting register R/W 00000000B 0078H — — — 0079H ILR0 Interrupt level setting register 0 R/W 11111111B 007AH ILR1 Interrupt level setting register 1 R/W 11111111B 007BH ILR2 Interrupt level setting register 2 R/W 11111111B 007CH ILR3 Interrupt level setting register 3 R/W 11111111B 007DH ILR4 Interrupt level setting register 4 R/W 11111111B 007EH ILR5 Interrupt level setting register 5 R/W 11111111B 007FH — — — 0F80H WRARH0 R/W 00000000B (Disabled) (Disabled) (Disabled) Flash memory status register (Disabled) Mirror of register bank pointer (RP) and direct bank pointer (DP) (Disabled) Wild register address setting register (Upper) ch. 0 Document Number: 002-07463 Rev. *B (Continued) Page 19 of 66 MB95200H/210H Series p Address Register abbreviation 0F81H WRARL0 0F82H WRDR0 0F83H Register name R/W Initial value Wild register address setting register (Lower) ch. 0 R/W 00000000B Wild register data setting register ch. 0 R/W 00000000B WRARH1 Wild register address setting register (Upper) ch. 1 R/W 00000000B 0F84H WRARL1 Wild register address setting register (Lower) ch. 1 R/W 00000000B 0F85H WRDR1 Wild register data setting register ch. 1 R/W 00000000B 0F86H WRARH2 Wild register address setting register (Upper) ch. 2 R/W 00000000B 0F87H WRARL2 Wild register address setting register (Lower) ch. 2 R/W 00000000B 0F88H WRDR2 Wild register data setting register ch. 2 R/W 00000000B 0F89H to 0F91H — — — 0F92H T01CR0 8/16-bit composite timer 01 status control register 0 ch. 0 R/W 00000000B 0F93H T00CR0 8/16-bit composite timer 00 status control register 0 ch. 0 R/W 00000000B 0F94H T01DR 8/16-bit composite timer 01 data register ch. 0 R/W 00000000B 0F95H T00DR 8/16-bit composite timer 00 data register ch. 0 R/W 00000000B 0F96H TMCR0 8/16-bit composite timer 00/01 timer mode control register ch. 0 R/W 00000000B 0F97H T11CR0 8/16-bit composite timer 11 status control register 0 ch. 1 R/W 00000000B 0F98H T10CR0 8/16-bit composite timer 10 status control register 0 ch. 1 R/W 00000000B 0F99H T11DR 8/16-bit composite timer 11 data register ch. 1 R/W 00000000B 0F9AH T10DR 8/16-bit composite timer 10 data register ch. 1 R/W 00000000B 0F9BH TMCR1 8/16-bit composite timer 10/11 timer mode control register ch. 1 R/W 00000000B 0F9CH to 0FBBH — — — 0FBCH BGR1 LIN-UART baud rate generator register 1 R/W 00000000B 0FBDH BGR0 LIN-UART baud rate generator register 0 R/W 00000000B 0FBEH to 0FC2H — — — 0FC3H AIDRL R/W 00000000B 0FC4H to 0FE3H — — — 0FE4H CRTH Main CR clock trimming register (Upper) R/W 1XXXXXXXB 0FE5H CRTL Main CR clock trimming register (Lower) R/W 000XXXXXB (Continued) (Disabled) (Disabled) (Disabled) A/D input disable register (Lower) (Disabled) Document Number: 002-07463 Rev. *B Page 20 of 66 MB95200H/210H Series (Continued) Address Register abbreviation 0FE6H to 0FE7H — 0FE8H SYSC 0FE9H Register name R/W Initial value — — System configuration register R/W 11000011B CMCR Clock monitoring control register R/W XX000000B 0FEAH CMDR Clock monitoring data register R/W 00000000B 0FEBH WDTH Watchdog timer selection ID register (Upper) R/W XXXXXXXXB 0FECH WDTL Watchdog timer selection ID register (Lower) R/W XXXXXXXXB 0FEDH — — — 0FEEH ILSR R/W 00000000B 0FEFH to 0FFFH — — — (Disabled) (Disabled) Input level select register (Disabled) R/W access symbols R/W : Readable / Writable R : Read only W : Write only Initial value symbols 0 : The initial value of this bit is “0”. 1 : The initial value of this bit is “1”. X : The initial value of this bit is undefined. Note: Do not write to an address that is “(Disabled)”. If a “(Disabled)” address is read, an undefined value is returned. Document Number: 002-07463 Rev. *B Page 21 of 66 MB95200H/210H Series 15. I/O Map (MB95210H Series) Address Register abbreviation 0000H PDR0 0001H Register name R/W Initial value Port 0 data register R/W 00000000B DDR0 Port 0 direction register R/W 00000000B 0002H PDR1 Port 1 data register R/W 00000000B 0003H DDR1 Port 1 direction register R/W 00000000B 0004H — — — 0005H WATR R/W 11111111B 0006H — — — 0007H SYCC System clock control register R/W XXXXXX11B 0008H STBC Standby control register R/W 00000XXXB 0009H RSRR Reset source register R XXXXXXXXB 000AH TBTC Timebase timer control register R/W 00000000B 000BH WPCR Watch prescaler control register R/W 00000000B 000CH WDTC Watchdog timer control register R/W 00000000B 000DH SYCC2 System clock control register 2 R/W XX100011B 000EH to 0015H — (Disabled) — — 0016H — (Disabled) — — 0017H — (Disabled) — — 0018H to 0027H — (Disabled) — — 0028H PDRF Port F data register R/W 00000000B 0029H DDRF Port F direction register R/W 00000000B 002AH — (Disabled) — — 002BH — (Disabled) — — 002CH PUL0 R/W 00000000B 002DH to 0034H — (Disabled) — — 0035H — (Disabled) — — 0036H T01CR1 8/16-bit composite timer 01 status control register 1 ch. 0 R/W 00000000B 0037H T00CR1 8/16-bit composite timer 00 status control register 1 ch. 0 R/W 00000000B 0038H — (Disabled) — — 0039H — (Disabled) — — 003AH to 0048H — (Disabled) — — 0049H — (Disabled) — — (Disabled) Oscillation stabilization wait time setting register (Disabled) Port 0 pull-up register (Continued) Document Number: 002-07463 Rev. *B Page 22 of 66 MB95200H/210H Series Address Register abbreviation 004AH EIC20 004BH EIC30 004CH to 004FH — 0050H Register name R/W Initial value External interrupt circuit control register ch. 4 R/W 00000000B External interrupt circuit control register ch. 6 R/W 00000000B (Disabled) — — — (Disabled) — — 0051H — (Disabled) — — 0052H — (Disabled) — — 0053H — (Disabled) — — 0054H — (Disabled) — — 0055H — (Disabled) — — 0056H to 006BH — (Disabled) — — 006CH ADC1 8/10-bit A/D converter control register 1 R/W 00000000B 006DH ADC2 8/10-bit A/D converter control register 2 R/W 00000000B 006EH ADDH 8/10-bit A/D converter data register (Upper) R/W 00000000B 006FH ADDL 8/10-bit A/D converter data register (Lower) R/W 00000000B 0070H to 0071H — — — 0072H FSR R/W 000X0000B 0073H to 0075H — — — 0076H WREN Wild register address compare enable register R/W 00000000B 0077H WROR Wild register data test setting register R/W 00000000B 0078H — — — 0079H ILR0 Interrupt level setting register 0 R/W 11111111B 007AH ILR1 Interrupt level setting register 1 R/W 11111111B 007BH — (Disabled) — — 007CH — (Disabled) — — 007DH ILR4 Interrupt level setting register 4 R/W 11111111B 007EH ILR5 Interrupt level setting register 5 R/W 11111111B 007FH — — — 0F80H WRARH0 Wild register address setting register (Upper) ch. 0 R/W 00000000B 0F81H WRARL0 Wild register address setting register (Lower) ch. 0 R/W 00000000B 0F82H WRDR0 Wild register data setting register ch. 0 R/W 00000000B (Disabled) Flash memory status register (Disabled) Mirror of register bank pointer (RP) and direct bank pointer (DP) (Disabled) Document Number: 002-07463 Rev. *B (Continued) Page 23 of 66 MB95200H/210H Series Address Register abbreviation 0F83H WRARH1 0F84H Register name R/W Initial value Wild register address setting register (Upper) ch. 1 R/W 00000000B WRARL1 Wild register address setting register (Lower) ch. 1 R/W 00000000B 0F85H WRDR1 Wild register data setting register ch. 1 R/W 00000000B 0F86H WRARH2 Wild register address setting register (Upper) ch. 2 R/W 00000000B 0F87H WRARL2 Wild register address setting register (Lower) ch. 2 R/W 00000000B 0F88H WRDR2 Wild register data setting register ch. 2 R/W 00000000B 0F89H to 0F91H — — — 0F92H T01CR0 8/16-bit composite timer 01 status control register 0 ch. 0 R/W 00000000B 0F93H T00CR0 8/16-bit composite timer 00 status control register 0 ch. 0 R/W 00000000B 0F94H T01DR 8/16-bit composite timer 01 data register ch. 0 R/W 00000000B 0F95H T00DR 8/16-bit composite timer 00 data register ch. 0 R/W 00000000B 0F96H TMCR0 8/16-bit composite timer 00/01 timer mode control register ch. 0 R/W 00000000B 0F97H — (Disabled) — — 0F98H — (Disabled) — — 0F99H — (Disabled) — — 0F9AH — (Disabled) — — 0F9BH — (Disabled) — — 0F9CH to 0FBBH — (Disabled) — — 0FBCH — (Disabled) — — 0FBDH — (Disabled) — — 0FBEH to 0FC2H — (Disabled) — — 0FC3H AIDRL R/W 00000000B 0FC4H to 0FE3H — — — 0FE4H CRTH Main CR clock trimming register (Upper) R/W 1XXXXXXXB 0FE5H CRTL Main CR clock trimming register (Lower) R/W 000XXXXXB 0FE6H to 0FE7H — — — 0FE8H SYSC R/W 11000011B (Disabled) A/D input disable register (Lower) (Disabled) (Disabled) System configuration register Document Number: 002-07463 Rev. *B (Continued) Page 24 of 66 MB95200H/210H Series (Continued) Register abbreviation Address Register name R/W Initial value 0FE9H CMCR Clock monitoring control register R/W XX000000B 0FEAH CMDR Clock monitoring data register R/W 00000000B 0FEBH WDTH Watchdog timer selection ID register (Upper) R/W XXXXXXXXB 0FECH WDTL Watchdog timer selection ID register (Lower) R/W XXXXXXXXB 0FEDH — (Disabled) — — 0FEEH ILSR Input level select register R/W 00000000B 0FEFH to 0FFFH — (Disabled) — — R/W access symbols R/W : Readable / Writable R : Read only W : Write only Initial value symbols 0 : The initial value of this bit is “0”. 1 : The initial value of this bit is “1”. X : The initial value of this bit is undefined. Note: Do not write to an address that is “(Disabled)”. If a “(Disabled)” address is read, an undefined value is returned. Document Number: 002-07463 Rev. *B Page 25 of 66 MB95200H/210H Series 16. Interrupt Source Table (MB95200H Series) Interrupt source Interrupt request number Vector table address Upper Lower Bit name of interrupt level setting register External interrupt ch. 4 IRQ0 FFFAH FFFBH L00 [1:0] External interrupt ch. 5 IRQ1 FFF8H FFF9H L01 [1:0] External interrupt ch. 2 IRQ2 FFF6H FFF7H L02 [1:0] IRQ3 FFF4H FFF5H L03 [1:0] — IRQ4 FFF2H FFF3H L04 [1:0] 8/16-bit composite timer ch. 0 (Lower) IRQ5 FFF0H FFF1H L05 [1:0] 8/16-bit composite timer ch. 0 (Upper) IRQ6 FFEEH FFEFH L06 [1:0] LIN-UART (reception) IRQ7 FFECH FFEDH L07 [1:0] LIN-UART (transmission) IRQ8 FFEAH FFEBH L08 [1:0] — IRQ9 FFE8H FFE9H L09 [1:0] — IRQ10 FFE6H FFE7H L10 [1:0] — IRQ11 FFE4H FFE5H L11 [1:0] — IRQ12 FFE2H FFE3H L12 [1:0] — IRQ13 FFE0H FFE1H L13 [1:0] 8/16-bit composite timer ch. 1 (Upper) IRQ14 FFDEH FFDFH L14 [1:0] — IRQ15 FFDCH FFDDH L15 [1:0] — IRQ16 FFDAH FFDBH L16 [1:0] — IRQ17 FFD8H FFD9H L17 [1:0] 8/10-bit A/D converter IRQ18 FFD6H FFD7H L18 [1:0] Timebase timer IRQ19 FFD4H FFD5H L19 [1:0] Watch prescaler IRQ20 FFD2H FFD3H L20 [1:0] — IRQ21 FFD0H FFD1H L21 [1:0] 8/16-bit composite timer ch. 1 (Lower) IRQ22 FFCEH FFCFH L22 [1:0] Flash memory IRQ23 FFCCH FFCDH L23 [1:0] Priority order of interrupt sources of the same level (occurring simultaneously) High External interrupt ch. 6 External interrupt ch. 3 External interrupt ch. 7 Document Number: 002-07463 Rev. *B Low Page 26 of 66 MB95200H/210H Series 17. Interrupt Source Table (MB95210H Series) Interrupt source Interrupt request number Vector table address Upper Lower Bit name of interrupt level setting register External interrupt ch. 4 IRQ0 FFFAH FFFBH L00 [1:0] — IRQ1 FFF8H FFF9H L01 [1:0] IRQ2 FFF6H FFF7H L02 [1:0] IRQ3 FFF4H FFF5H L03 [1:0] — IRQ4 FFF2H FFF3H L04 [1:0] 8/16-bit composite timer ch. 0 (Lower) IRQ5 FFF0H FFF1H L05 [1:0] 8/16-bit composite timer ch. 0 (Upper) IRQ6 FFEEH FFEFH L06 [1:0] — IRQ7 FFECH FFEDH L07 [1:0] — IRQ8 FFEAH FFEBH L08 [1:0] — IRQ9 FFE8H FFE9H L09 [1:0] — IRQ10 FFE6H FFE7H L10 [1:0] — IRQ11 FFE4H FFE5H L11 [1:0] — IRQ12 FFE2H FFE3H L12 [1:0] — IRQ13 FFE0H FFE1H L13 [1:0] — IRQ14 FFDEH FFDFH L14 [1:0] — IRQ15 FFDCH FFDDH L15 [1:0] — IRQ16 FFDAH FFDBH L16 [1:0] — IRQ17 FFD8H FFD9H L17 [1:0] 8/10-bit A/D converter IRQ18 FFD6H FFD7H L18 [1:0] Timebase timer IRQ19 FFD4H FFD5H L19 [1:0] Watch prescaler IRQ20 FFD2H FFD3H L20 [1:0] — IRQ21 FFD0H FFD1H L21 [1:0] — IRQ22 FFCEH FFCFH L22 [1:0] Flash memory IRQ23 FFCCH FFCDH L23 [1:0] — External interrupt ch. 6 — — Document Number: 002-07463 Rev. *B Priority order of interrupt sources of the same level (occurring simultaneously) High Low Page 27 of 66 MB95200H/210H Series 18. Electrical Characteristics 18.1 Absolute Maximum Ratings Parameter Power supply voltage*1 Input voltage*1 1 Output voltage* Maximum clamp current Total maximum clamp current “L” level maximum output current Symbol Rating VCC VSS0.3 VSS6 V VI1 VSS0.3 VCC0.3 V Other than PF2*2 VI2 VSS0.3 10.5 V PF2 VO VSS0.3 VSS6 V *2 ICLAMP -2 +2 mA Applicable to pins listed in *3 |ICLAMP| — 20 mA Applicable to pins listed in *3 IOL1 IOL2 “L” level average current — “H” level maximum output current 15 — mA mA 12 IOL — 100 mA IOLAV — 50 mA IOH1 IOH2 — IOHAV1 “H” level average current -15 -15 mA -4 — mA -8 IOHAV2 “H” level total maximum output current 15 4 IOLAV2 “L” level total average output current IOH — -100 mA IOHAV — -50 mA Power consumption Pd — 320 mW Operating temperature TA -40 +85 C Tstg -55 +150 C “H” level total average output current Storage temperature Remarks Max IOLAV1 “L” level total maximum output current Unit Min Document Number: 002-07463 Rev. *B Other than P05, P06, P62 and P63*4 P05, P06, P62 and P63*4 Other than P05, P06, P62 and P63*4 Average output current = operating current operating ratio (1 pin) P05, P06, P62 and P63*4 Average output current = operating current operating ratio (1 pin) Total average output current = operating current operating ratio (Total number of pins) Other than P05, P06, P62 and P63*4 P05, P06, P62 and P63*4 Other than P05, P06, P62 and P63*4 Average output current = operating current operating ratio (1 pin) P05, P06, P62 and P63*4 Average output current = operating current operating ratio (1 pin) Total average output current = operating current operating ratio (Total number of pins) Page 28 of 66 MB95200H/210H Series *1: The parameter is based on VSS = 0.0 V. *2: VI and VO must not exceed VCC0.3 V. VI must not exceed the rated voltage. However, if the maximum current to/from an input is limited by means of an external component, the ICLAMP rating is used instead of the VI rating. *3: Applicable to the following pins: P00 to P07, P62 to P64, PG1, PG2, PF0, PF1 (P00 to P03, P07, P62 to P64, PG1, PG2, PF0 and PF1 are available in MB95F204H/F203H/F202H/F204K/F203K/F202K.) • Use under recommended operating conditions. • Use with DC voltage (current). • The HV (High Voltage) signal is an input signal exceeding the VCC voltage. Always connect a limiting resistor between the HV (High Voltage) signal and the microcontroller before applying the HV (High Voltage) signal. • The value of the limiting resistor should be set to a value at which the current to be input to the microcontroller pin when the HV (High Voltage) signal is input is below the standard value, irrespective of whether the current is transient current of stationary current. • When the microcontroller drive current is low, such as in low power consumption modes, the HV (High Voltage) input potential may pass through the protective diode to increase the potential of the VCC pin, affecting other devices. • If the HV (High Voltage) signal is input when the microcontroller power supply is off (not fixed at 0 V), since power is supplied from the pins, incomplete operations may be executed. • If the HV (High Voltage) input is input after power-on, since power is supplied from the pins, the voltage of power supply may not be sufficient to enable a power-on reset. • Do not leave the HV (High Voltage) input pin unconnected. • Example of a recommended circuit: Input/Output Equivalent Circuit Protective diode VCC P-ch Limiting resistor HV(High Voltage) input (0 V to 16 V) N-ch R *4: P62 and P63 are available in MB95F204H/F203H/F202H/F204K/F203K/F202K. WARNING: A semiconductor device may be damaged by applying stress (voltage, current, temperature, etc.) in excess of the absolute maximum rating. Therefore, ensure that not a single parameter exceeds its absolute maximum rating. Document Number: 002-07463 Rev. *B Page 29 of 66 MB95200H/210H Series 18.2 Recommended Operating Conditions (VSS = 0.0 V) Parameter Power supply voltage Symbol VCC Smoothing capacitor CS Operating temperature TA Value Min Max 2.4*1*2 5.5*1 2.3 5.5 2.9 5.5 2.3 5.5 0.022 1 -40 +85 +5 +35 Unit Remarks In normal operation V Other than on-chip debug mode Hold condition in stop mode In normal operation On-chip debug mode Hold condition in stop mode µF C *3 Other than on-chip debug function On-chip debug function *1: The value varies depending on the operating frequency, the machine clock and the analog guaranteed range. *2: The value is 2.88 V when the low-voltage detection reset is used. *3: Use a ceramic capacitor or a capacitor with equivalent frequency characteristics. The bypass capacitor for the VCC pin must have a capacitance larger than CS. For the connection to a smoothing capacitor CS, see the diagram below. To prevent the device from unintentionally entering an unknown mode due to noise, minimize the distance between the C pin and CS and the distance between CS and the VSS pin when designing the layout of a printed circuit board. DBG / RSTX / C pin connection diagram * DBG C RSTX Cs *: Since the DBG pin becomes a communication pin in on-chip debug mode, set a pull-up resistor value suiting the input/output specifications of P12/DBG. WARNING: The recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. All of the electrical characteristics of the device are warranted when the device is operated within these ranges. Always use semiconductor devices within their recommended operating condition ranges. Operation outside these ranges may adversely affect reliability and could result in device failure. No warranty is made with respect to uses, operating conditions, or combinations not represented on the data sheet. Users considering application outside the listed conditions are advised to contact sales representatives beforehand. Document Number: 002-07463 Rev. *B Page 30 of 66 MB95200H/210H Series 18.3 DC Characteristics (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter “H” level input voltage “L” level input voltage Open-drain output application voltage “H” level output voltage “L” level output voltage Input leak current (Hi-Z output leak current) Pull-up resistance Symbol Pin name Condition Value Min Typ Max Unit Remarks VIHI P04 *1 0.7 VCC — VCC0.3 V When CMOS input level (hysteresis input) is selected VIHS P00 to P07, P12, P62 to P64, PF0 to PF1, PG1 to PG2 *1 0.8 VCC — VCC0.3 V Hysteresis input VIHM PF2 — 0.7 VCC — 10.5 V Hysteresis input*5 VIL P04 *1 VSS0.3 — 0.3 VCC V When CMOS input level (hysteresis input) is selected VILS P00 to P07, P12, P62 to P64, PF0 to PF1, PG1 to PG2 *1 VSS0.3 — 0.2 VCC V Hysteresis input VILM PF2 — VSS0.3 — 0.3 VCC V Hysteresis input PF2, P12 — VSS0.3 — VSS+5.5 V VOH1 Output pins other than P05, P06, P62, P63, PF2 and P12*2 IOH = -4 mA VCC0.5 — — V VOH2 P05, P06, P62, P63*2 IOH = -8 mA VCC0.5 — — V VOL1 Output pins other than P05, P06, P62 and P63*2 IOL = 4 mA — — 0.4 V VOL2 P05, P06, P62, P63*2 IOL = 2 mA — — 0.4 V 0.0 V < VI < VCC -5 — +5 µA When pull-up resistance is disabled VI = 0 V 25 50 100 k When pull-up resistance is enabled VD ILI RPULL All input pins P00 to P07, PG1, PG2*3 (Continued) Document Number: 002-07463 Rev. *B Page 31 of 66 MB95200H/210H Series (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Input capacitance Symbol Pin name Value Unit Remarks Min Typ Max — 5 15 pF — 13 17 mA Flash memory product (except writing and erasing) — 33.5 39.5 mA Flash memory product (at writing and erasing) — 15 21 mA At A/D conversion VCC = 5.5 V FCH = 32 MHz FMP = 16 MHz Main sleep mode (divided by 2) — 5.5 9 mA VCC = 5.5 V FCL = 32 kHz FMPL = 16 kHz Subclock mode (divided by 2) TA = +25 C — 65 153 µA ICCLS VCC = 5.5 V FCL = 32 kHz FMPL = 16 kHz Subsleep mode (divided by 2) TA = +25 C — 10 84 µA ICCT VCC = 5.5 V FCL = 32 kHz Watch mode Main stop mode TA = +25C — 5 30 µA CIN Other than VCC and VSS ICCS ICCL f = 1 MHz VCC = 5.5 V FCH = 32 MHz FMP = 16 MHz Main clock mode (divided by 2) ICC Power supply current*4 Condition VCC (External clock operation) (Continued) Document Number: 002-07463 Rev. *B Page 32 of 66 MB95200H/210H Series (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Pin name Value Unit Min Typ Max VCC = 5.5 V FCRH = 10 MHz FMP = 10 MHz Main CR clock mode — 8.6 — mA VCC = 5.5 V Sub-CR clock mode (divided by 2) TA = +25 C — 110 410 µA VCC = 5.5 V FCH = 32 MHz Timebase timer mode TA = +25 C — 1.1 3 mA ICCH VCC = 5.5 V Substop mode TA = +25 C — 3.5 22.5 µA ILVD Current consumption for low-voltage detection circuit only — 37 54 µA Current consumption for the internal main CR oscillator — 0.5 0.6 mA Current consumption for the internal sub-CR oscillator oscillating at 100 kHz — 20 72 µA ICCMCR VCC ICCSCR ICCTS Power supply current*4 Condition ICRH VCC (External clock operation) VCC ICRL Remarks Main stop mode for single clock selection *1: The input level of P04 can be switched between “CMOS input level” and “hysteresis input level”. The input level selection register (ILSR) is used to switch between the two input levels. *2: P62 and P63 are available in MB95F204H/F203H/F202H/F204K/F203K/F202K. *3: P00 to P03, P07, PG1 and PG2 are available in MB95F204H/F203H/F202H/F204K/F203K/F202K. *4: The power supply current is determined by the external clock. When the low-voltage detection option is selected, the power-supply current will be the sum of adding the current consumption of the low-voltage detection circuit (ILVD) to a specified value. In addition, when both the low-voltage detection option and the CR oscillator are selected, the power supply current will be the sum of adding up the current consumption of the low-voltage detection circuit, the current consumption of the CR oscillators (ICRH, ICRL) and a specified value. In on-chip debug mode, the CR oscillator (ICRH) and the low-voltage detection circuit are always enabled, and current consumption therefore increases accordingly. • See “18.4. AC Characteristics: 18.4.1.Clock Timing” for FCH and FCL. • See “18.4. AC Characteristics: 18.4.2. Source Clock/Machine Clock” for FMP and FMPL. *5 : PF2 act as high voltage supply for the flash memory during program and erase. It can tolerate high voltage input. For details, see section “18.6. Flash Memory Program/Erase Characteristics”. Document Number: 002-07463 Rev. *B Page 33 of 66 MB95200H/210H Series 18.4 AC Characteristics 18.4.1 Clock Timing (VCC = 2.4 V to 5.5 V, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol FCH Pin name Condition X0, X1 Remarks Typ Max — 1 — 16.25 X0 X1 open 1 — 12 X0, X1 * HCLK1, HCLK2 — 1 — 32.5 MHz 9.7 10 10.3 7.76 8 8.24 0.97 1 1.03 MHz When the main CR clock is used 3.3 V Vcc 5.5 V(-40 C T 40 C) MHz 2.4 V Vcc 3.3 V(0 C T A 40 C) A MHz 9.55 10 10.45 7.64 8 8.36 MHz When the main CR clock is used 3.3 V Vcc 5.5 V (40 C TA 85 C) MHz 0.955 1 1.045 MHz 9.5 10 10.5 7.6 8 8.4 0.95 1 1.05 MHz When the main CR clock is used 2.4 V Vcc 3.3 V MHz (-40 C T 0 C, 40 C T 85 C) A A MHz — — MHz When the main oscillation circuit is used MHz When the main external clock is used FCL X0A, X1A — 32.768 — kHz When the sub oscillation circuit is used 32.768 — kHz When the sub-external clock is used FCRL — — 50 100 200 kHz When the sub-CR clock is used X0, X1 — 61.5 — 1000 ns When the main oscillation circuit is used X0 X1 open 83.4 — 1000 ns When the external clock is used X0, X1 * HCLK1, HCLK2 — 30.8 — 1000 ns X0A, X1A — — 30.5 — µs When the subclock is used X0 X1 open 33.4 — — ns X0, X1 * HCLK1, HCLK2 — 12.4 — — ns When the external clock is used, the duty ratio should range between 40% and 60%. X0A — — 15.2 — µs Clock cycle time tHCYL tLCYL Input clock pulse width Unit Min Clock frequency FCRH Value tWH1 tWL1 tWH2 tWL2 (Continued) Document Number: 002-07463 Rev. *B Page 34 of 66 MB95200H/210H Series (Continued) (VCC = 2.4 V to 5.5 V, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Pin name X0 Input clock rise time and fall time CR oscillation start time Condition X1 open Value Unit Remarks 5 ns When the external clock is used — 5 ns Min Typ Max — — — X0, X1 * HCLK1, HCLK2 — tCRHWK — — — — 80 µs When the main CR clock is used tCRLWK — — — — 10 µs When the sub-CR clock is used tCR tCF * : The external clock signal is input to X0 and the inverted external clock signal to X1. Document Number: 002-07463 Rev. *B Page 35 of 66 MB95200H/210H Series tHCYL tWH1 tWL1 tCR tCF X0, X1, HCLK1, HCLK2 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC 0.2 VCC Figure of main clock input port external connection When a crystal oscillator or When the external clock is used a ceramic oscillator is used (X1 is open) X0 X1 X0 When the external clock is used X1 X0 When the external clock is used X1 HCLK1/HCLK2 Open FCH FCH FCH FCH tLCYL tWH2 tCR X0A tWL2 tCF 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC 0.2 VCC Figure of subclock input port external connection When a crystal oscillator or a ceramic oscillator is used X0A X1A FCL When the external clock is used X0A X1A Open FCL Document Number: 002-07463 Rev. *B Page 36 of 66 MB95200H/210H Series 18.4.2 Source Clock/Machine Clock (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Source clock cycle time*1 Symbol tSCLK Pin name — FSP Source clock frequency — FSPL Machine clock cycle time*2(minimum instruction execution time) tMCLK Unit — FMPL Remarks Min Typ Max 61.5 — 2000 ns When the main external clock is used Min: FCH = 32.5 MHz, divided by 2 Max: FCH = 1 MHz, divided by 2 100 — 1000 ns When the main CR clock is used Min: FCRH = 10 MHz Max: FCRH = 1 MHz — 61 — µs When the sub-CR clock is used FCL = 32.768 kHz, divided by 2 — 20 — µs When the sub-oscillation clock is used FCRL = 100 kHz, divided by 2 0.5 — 16.25 1 — 10 MHz When the main CR clock is used — 16.384 — kHz When the sub-oscillation clock is used — 50 — kHz When the sub-CR clock is used FCRL = 100 kHz, divided by 2 61.5 — 32000 ns When the main oscillation clock is used Min: FSP = 16.25 MHz, no division Max: FSP = 0.5 MHz, divided by 16 100 — 16000 ns When the main CR clock is used Min: FSP = 10 MHz Max: FSP = 1 MHz, divided by 16 61 — 976.5 µs When the sub-oscillation clock is used Min: FSPL = 16.384 kHz, no division Max: FSPL = 16.384 kHz, divided by 16 20 — 320 µs When the sub-CR clock is used Min: FSPL = 50 kHz, no division Max: FSPL = 50 kHz, divided by 16 0.031 — 16.25 0.0625 — 10 1.024 — 16.384 kHz When the sub-oscillation clock is used 3.125 — 50 kHz When the sub-CR clock is used FCRL = 100 kHz MHz When the main oscillation clock is used — FMP Machine clock frequency Value MHz When the main oscillation clock is used MHz When the main CR clock is used *1: This is the clock before it is divided according to the division ratio set by the machine clock division ratio selection bits (SYCC : DIV1 and DIV0) . This source clock is divided to become a machine clock according to the division ratio set by the machine clock division ratio selection bits (SYCC : DIV1 and DIV0) . In addition, a source clock can be selected from the following. • Main clock divided by 2 • Main CR clock • Subclock divided by 2 • Sub-CR clock divided by 2 *2: This is the operating clock of the microcontroller. A machine clock can be selected from the following. • Source clock (no division) • Source clock divided by 4 • Source clock divided by 8 • Source clock divided by 16 Document Number: 002-07463 Rev. *B Page 37 of 66 MB95200H/210H Series Schematic diagram of the clock generation block Divided by 2 FCH (main oscillation) FCRH (Internal main CR clock) FCL (sub-oscillation) FCRL (Internal subCR clock) SCLK (source clock) Divided by 2 Divided by 2 MCLK (machine clock) Machine clock division ratio select bits (SYCC : DIV1, DIV0) Clock mode select bits (SYCC2: RCS1, RCS0) o Division circuit x 1 x 1/4 x 1/8 x1/16 o Operating voltage - Operating frequency (When TA = -40 C to +85 C) MB95200H/210H (without the on-chip debug function) 5.5 5.0 A/D converter operation range Operating voltage (V) 4.0 3.5 3.0 2.4 16 kHz 3 MHz 10 MHz 16.25 MHz Source clock frequency (FSP/FSPL) Operating voltage - Operating frequency (When TA = +5 oC to +35 oC) MB95200H/210H (with the on-chip debug function) 5.5 5.0 A/D converter operation range Operating voltage (V) 4.0 3.5 2.9 3.0 16 kHz 3 MHz 12.5 MHz 16.25 MHz Source clock frequency (FSP) Document Number: 002-07463 Rev. *B Page 38 of 66 MB95200H/210H Series 18.4.3 External Reset (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Value Symbol RSTX “L” level pulse width tRSTL Unit Remarks Min Max 2 tMCLK*1 — ns In normal operation Oscillation time of the oscillator*2100 — µs In stop mode, subclock mode, sub-sleep mode, watch mode, and power on 100 — µs In timebase timer mode *1: See “18.4.2. Source Clock/Machine Clock” for tMCLK. *2: The oscillation time of an oscillator is the time that the amplitude reaches 90%. The crystal oscillator has an oscillation time of between several ms and tens of ms. The ceramic oscillator has an oscillation time of between hundreds of µs and several ms. The external clock has an oscillation time of 0 ms. The CR oscillator clock has an oscillation time of between several µs and several ms. In normal operation tRSTL RSTX 0.2 VCC 0.2 VCC In stop mode, sub-clock mode, sub-sleep mode, watch mode, and power-on tRSTL RSTX X0 0.2 VCC 0.2 VCC 90% of amplitude Internal operating clock Oscillation time of oscillator Internal reset Document Number: 002-07463 Rev. *B 100 μs Oscillation stabilization wait time Execute instruction Page 39 of 66 MB95200H/210H Series 18.4.4 Power-on Reset (VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Condition Power supply rising time tR Power supply cutoff time tOFF Value Unit Min Max — — 50 ms — 1 — ms tR Remarks Wait time until power-on tOFF 2.5 V 0.2 V VCC 0.2 V 0.2 V Note: A sudden change of power supply voltage may activate the power-on reset function. When changing the power supply voltage during the operation, set the slope of rising to within 30 mV/ms as shown below. VCC Limiting the slope of rising within 30 mV/ms is recommended. 2.3 V Hold condition in stop mode VSS 18.4.5 Peripheral Input Timing (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Peripheral input “H” pulse width Peripheral input “L” pulse width Symbol Value Pin name tILIH Min INT02 to INT07, EC0, EC1*2 tIHIL Max Unit 2 tMCLK*1 — ns *1 — ns 2 tMCLK *1: See “18.4.2. Source Clock/Machine Clock” for tMCLK. *2: INT02, INT03, INT05, INT07 and EC1 are available in MB95F204H/F203H/F202H/F204K/F203K/F202K. tILIH INT02 to INT07, EC0, EC1*2 Document Number: 002-07463 Rev. *B 0.8 VCC tIHIL 0.8 VCC 0.2 VCC 0.2 VCC Page 40 of 66 MB95200H/210H Series 18.4.6 LIN-UART Timing (Available in MB95F204H/F203H/F202H/F204K/F203K/F202K only) Sampling is executed at the rising edge of the sampling clock*1, and serial clock delay is disabled*2.(ESCR register : SCES bit = 0, ECCR register : SCDE bit = 0) (VCC = 5.0 V±10%, AVSS = VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Pin name Serial clock cycle time tSCYC SCK SCK SOT delay time tSLOVI SCK, SOT Valid SIN SCK tIVSHI SCK, SIN SCK valid SIN hold time tSHIXI SCK, SIN Serial clock “L” pulse width tSLSH SCK Serial clock “H” pulse width tSHSL SCK SCK SOT delay time tSLOVE SCK, SOT Valid SIN SCK tIVSHE SCK, SIN SCK valid SIN hold time tSHIXE SCK, SIN Condition Internal clock operation output pin: CL = 80 pF1 TTL External clock operation output pin: CL = 80 pF1 TTL Value Unit Min Max 5 tMCLK*3 — ns -95 +95 ns *3190 — ns 0 — ns 3 tMCLK*3tR tMCLK*395 — ns — ns tMCLK — 2 tMCLK*395 ns 190 — ns tMCLK*395 — ns SCK fall time tF SCK — 10 ns SCK rise time tR SCK — 10 ns *1: There is a function used to choose whether the sampling of reception data is performed at a rising edge or a falling edge of the serial clock. *2: The serial clock delay function is a function used to delay the output signal of the serial clock for half the clock. *3: See “18.4.2. Source Clock/Machine Clock” for tMCLK. Document Number: 002-07463 Rev. *B Page 41 of 66 MB95200H/210H Series Internal shift clock mode tSCYC 2.4 V SCK 0.8 V 0.8 V tSLOVI 2.4 V SOT 0.8 V tIVSHI tSHIXI 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC SIN External shift clock mode tSLSH tSHSL 0.8 VCC 0.8 VCC 0.8 VCC SCK 0.2 VCC 0.2 VCC tR tF tSLOVE 2.4 V SOT 0.8 V tIVSHE tSHIXE 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC SIN Document Number: 002-07463 Rev. *B Page 42 of 66 MB95200H/210H Series Sampling is executed at the falling edge of the sampling clock*1, and serial clock delay is disabled*2.(ESCR register : SCES bit = 1, ECCR register : SCDE bit = 0) (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Serial clock cycle time SCK SOT delay time tSCYC tSHOVI Pin name SCK SCK, SOT Valid SIN SCK tIVSLI SCK, SIN SCK valid SIN hold time tSLIXI SCK, SIN Serial clock “H” pulse width Serial clock “L” pulse width tSHSL tSLSH Unit Min Max 5 tMCLK*3 — ns -95 +95 ns tMCLK*3190 — ns 0 — ns SCK 3 tMCLK* tR — ns SCK *395 — ns tSHOVE SCK, SOT Valid SIN SCK tIVSLE SCK, SIN tSLIXE Internal clock operation output pin: CL = 80 pF1 TTL Value 3 SCK SOT delay time SCK valid SIN hold time Condition SCK, SIN tMCLK External clock operation output pin: CL = 80 pF1 TTL — 2 tMCLK*395 190 *395 tMCLK ns — ns — ns SCK fall time tF SCK — 10 ns SCK rise time tR SCK — 10 ns *1: There is a function used to choose whether the sampling of reception data is performed at a rising edge or a falling edge of the serial clock. *2: The serial clock delay function is a function used to delay the output signal of the serial clock for half the clock. *3: See “18.4.2. Source Clock/Machine Clock” for tMCLK. Document Number: 002-07463 Rev. *B Page 43 of 66 MB95200H/210H Series Internal shift clock mode tSCYC 2.4 V 2.4 V SCK 0.8 V tSHOVI 2.4 V SOT 0.8 V tIVSLI tSLIXI 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC SIN External shift clock mode tSHSL 0.8 VCC tSLSH 0.8 VCC SCK 0.2 VCC 0.2 VCC 0.2 VCC tF tR tSHOVE 2.4 V SOT 0.8 V tIVSLE tSLIXE 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC SIN Document Number: 002-07463 Rev. *B Page 44 of 66 MB95200H/210H Series Sampling is executed at the rising edge of the sampling clock*1, and serial clock delay is enabled*2.(ESCR register : SCES bit = 0, ECCR register : SCDE bit = 1) (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Pin name Serial clock cycle time tSCYC SCK SCK SOT delay time tSHOVI SCK, SOT Valid SIN SCK tIVSLI SCK, SIN SCK valid SIN hold time tSLIXI SCK, SIN SOT SCK delay time tSOVLI Value Condition Internal clock operation output pin: CL = 80 pF1 TTL SCK, SOT Unit Min Max 5 tMCLK*3 — ns -95 +95 ns tMCLK*3190 — ns 0 — — ns 3 4 tMCLK* ns *1: There is a function used to choose whether the sampling of reception data is performed at a rising edge or a falling edge of the serial clock. *2: The serial clock delay function is a function that delays the output signal of the serial clock for half clock. *3: See “18.4.2. Source Clock/Machine Clock” for tMCLK. tSCYC 2.4 V SCK 0.8 V SOT 2.4 V 2.4 V 0.8 V 0.8 V tIVSLI SIN 0.8 V tSHOVI tSOVLI tSLIXI 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC Document Number: 002-07463 Rev. *B Page 45 of 66 MB95200H/210H Series Sampling is executed at the falling edge of the sampling clock*1, and serial clock delay is enabled*2. (ESCR register : SCES bit = 1, ECCR register : SCDE bit = 1) (VCC = 5.0 V±10%, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Pin name Serial clock cycle time tSCYC SCK SCK SOT delay time tSLOVI SCK, SOT Valid SIN SCK tIVSHI SCK, SIN SCK valid SIN hold time tSHIXI SCK, SIN SOT SCK delay time tSOVHI Value Condition Internal clock operation output pin: CL = 80 pF1 TTL Unit Min Max 5 tMCLK*3 — ns -95 +95 ns tMCLK*3190 — ns 0 — SCK, SOT ns 3 — 4 tMCLK* ns *1: There is a function used to choose whether the sampling of reception data is performed at a rising edge or a falling edge of the serial clock. *2: The serial clock delay function is a function that delays the output signal of the serial clock for half clock. *3: See “18.4.2.Source Clock/Machine Clock” for tMCLK. tSCYC 2.4 V SCK 2.4 V 0.8 V tSOVHI SOT tSLOVI 2.4 V 2.4 V 0.8 V 0.8 V tIVSHI SIN Document Number: 002-07463 Rev. *B tSHIXI 0.8 VCC 0.8 VCC 0.2 VCC 0.2 VCC Page 46 of 66 MB95200H/210H Series 18.4.7 Low-voltage Detection (VSS = 0.0 V, TA = -40°C to +85°C) Parameter Symbol Value Min Typ Max Unit Remarks Release voltage VDL 2.52 2.7 2.88 V At power supply rise Detection voltage VDL 2.42 2.6 2.78 V At power supply fall Hysteresis width VHYS 70 100 — mV Power supply start voltage Voff — — 2.3 V Power supply end voltage Von 4.9 — — V 1 — — µs Slope of power supply that the reset release signal generates — 3000 — µs Slope of power supply that the reset release signal generates within the rating (VDL+) 300 — — µs Slope of power supply that the reset detection signal generates — 300 — µs Slope of power supply that the reset detection signal generates within the rating (VDL-) Power supply voltage change time (at power supply rise) Power supply voltage change time (at power supply fall) tr tf Reset release delay time td1 — — 300 µs Reset detection delay time td2 — — 20 µs Document Number: 002-07463 Rev. *B Page 47 of 66 MB95200H/210H Series VCC Von Voff time tf tr VDL+ VHYS VDL- Internal reset signal time td2 Document Number: 002-07463 Rev. *B td1 Page 48 of 66 MB95200H/210H Series 18.5 A/D Converter 18.5.1 A/D Converter Electrical Characteristics (VCC = 4.0 V to 5.5 V, VSS = 0.0 V, TA = -40°C to +85°C) Parameter Value Symbol Resolution Total error Linearity error — Differential linear error Unit Min Typ Max — — 10 bit -3 — +3 LSB -2.5 — +2.5 LSB -1.9 — +1.9 LSB Remarks Zero transition voltage VOT VSS1.5 LSB VSS0.5 LSB VSS2.5 LSB V Full-scale transition voltage VFST VCC4.5 LSB VCC2 LSB VCC0.5 LSB V 0.9 — 16500 µs 4.5 V VCC 5.5 V 1.8 — 16500 µs 4.0 V VCC 4.5 V 0.6 — ¥ µs 4.5 V VCC 5.5 V, with external impedance 5.4 kΩ 1.2 — ¥ µs 4.0 V VCC 4.5 V, with external impedance 2.4 kΩ Compare time — Sampling time — Analog input current IAIN -0.3 — +0.3 µA Analog input voltage VAIN VSS — VCC V Document Number: 002-07463 Rev. *B Page 49 of 66 MB95200H/210H Series 18.5.2 Notes on Using the A/D Converter External impedance of analog input and its sampling time ■ The A/D converter has a sample and hold circuit. If the external impedance is too high to keep sufficient sampling time, the analog voltage charged to the internal sample and hold capacitor is insufficient, adversely affecting A/D conversion precision. Therefore, to satisfy the A/D conversion precision standard, considering the relationship between the external impedance and minimum sampling time, either adjust the register value and operating frequency or decrease the external impedance so that the sampling time is longer than the minimum value. In addition, if sufficient sampling time cannot be secured, connect a capacitor of about 0.1 µF to the analog input pin. Analog input equivalent circuit Analog input Comparator R C During sampling: ON ~ 1.95 kΩ (Max), C ~ 4.5 V < VCC < 5.5 V : R ~ ~ 17 pF (Max) 4.0 V < VCC < 4.5 V : R ~ ~ 8.98 kΩ (Max), C ~ ~ 17 pF (Max) Note: The values are reference values. Relationship between external impedance and minimum sampling time [External impedance = 0 kΩ to 20 kΩ] [External impedance = 0 kΩ to 100 kΩ] 20 External impedance [kΩ] External impedance [kΩ] 100 90 80 70 60 (VCC > = 4.5 V) 50 (VCC > = 4.0 V) 40 30 20 10 18 16 14 12 (VCC > = 4.5 V) 10 (VCC > = 4.0 V) 8 6 4 2 0 0 0 2 4 6 8 10 12 14 0 Minimum sampling time [μs] 1 2 3 4 Minimum sampling time [μs] A/D conversion error As |VCCVSS| decreases, the A/D conversion error increases proportionately. Document Number: 002-07463 Rev. *B Page 50 of 66 MB95200H/210H Series 18.5.3 Definitions of A/D Converter Terms ■ Resolution It indicates the level of analog variation that can be distinguished by the A/D converter. When the number of bits is 10, analog voltage can be divided into 210 = 1024. ■ Linearity error (unit: LSB) It indicates how much an actual conversion value deviates from the straight line connecting the zero transition point (“00 0000 0000” “00 0000 0001”) of a device to the full-scale transition point (“11 1111 1111“ “11 1111 1110”) of the same device. ■ Differential linear error (unit: LSB) It indicates how much the input voltage required to change the output code by 1 LSB deviates from an ideal value. ■ Total error (unit: LSB) It indicates the difference between an actual value and a theoretical value. The error can be caused by a zero transition error, a full-scale transition errors, a linearity error, a quantum error, or noise. Ideal I/O characteristics 3FF Total error 3FF VFST 3FE 3FE 2.0 LSB 3FD Digital output Digital output 3FD 004 VOT 003 Actual conversion characteristic {1 LSB x (N-1) + 0.5 LSB} 004 VNT 003 1 LSB 002 Actual conversion characteristic 002 Ideal characteristic 001 001 0.5 LSB VSS Analog input 1 LSB = VCC VCC - VSS (V) 1024 VSS Analog input VCC VNT - {1 LSB x (N - 1) + 0.5 LSB} Total error of = [LSB] digital output N 1 LSB N : A/D converter digital output value VNT: Voltage at which the digital output transits from (N - 1) to N (Continued) Document Number: 002-07463 Rev. *B Page 51 of 66 MB95200H/210H Series (Continued) Zero transition error Full-scale transition error 004 Ideal characteristic Actual conversion characteristic 3FF Actual conversion characteristic Digital output Digital output 003 002 Actual conversion characteristic Ideal characteristic 3FE VFST (measurement value) 3FD Actual conversion characteristic 001 3FC VOT (measurement value) VSS VCC Analog input VSS Linearity error Differential linearity error Ideal characteristic Actual conversion characteristic 3FF N+1 3FE Actual conversion characteristic Digital output 3FD VFST (measurement value) VNT 004 Actual conversion characteristic Digital output {1 LSB x N + VOT} 003 V(N+1)T N VNT N-1 Ideal characteristic 002 VCC Analog input Actual conversion characteristic N-2 001 VOT (measurement value) VSS Analog input VCC VNT - {1 LSB x N + VOT} Linearity error = of digital output N 1 LSB VSS Analog input VCC V(N+1)T - VNT Differential linear error = - 1 of digital output N 1 LSB N : A/D converter digital output value VNT: Voltage at which the digital output transits from (N - 1) to N VOT (ideal value) = VSS + 0.5 LSB [V] VFST (ideal value) = VCC - 2.0 LSB [V] Document Number: 002-07463 Rev. *B Page 52 of 66 MB95200H/210H Series 18.6 Flash Memory Program/Erase Characteristics Parameter Value Unit Remarks Min Typ Max — 1*1 15*2 s 00H programming time prior to erasure is excluded. — 32 3600 µs System-level overhead is excluded. 9.5 10 10.5 V The erase/program voltage must be applied to the PF2 pin in erase/program. — — 5.0 mA Erase/program cycle — 100000 — cycle Power supply voltage at erase/program 3.0 — 5.5 V Flash memory data retention time 20*3 — — year Chip erase time Byte programming time Erase/program voltage Current drawn on PF2 Current consumption of PF2 pin during flash memory program/erase Average TA = +85C *1: TA = +25°C, VCC = 5.0 V, 100000 cycles *2: TA = +85°C, VCC = 4.5 V, 100000 cycles *3: This value is converted from the result of a technology reliability assessment. (The value is converted from the result of a high temperature accelerated test by using the Arrhenius equation with the average temperature being +85°C) . Document Number: 002-07463 Rev. *B Page 53 of 66 MB95200H/210H Series 19. Sample Electrical Characteristics Power supply current•temperature ICC - VCC TA=+25°C, FMP=2, 4, 8, 10, 16 MHz (divided by 2) Main clock mode with the external clock operating ICC - TA VCC=5.5 V, FMP=10, 16 MHz (divided by 2) Main clock mode with the external clock operating 20 20 15 15 FMP=16 MHz 10 FMP=10 MHz FMP=8 MHz 5 ICC[mA] ICC[mA] FMP=16 MHz 10 FMP=10 MHz 5 FMP=4 MHz FMP=2 MHz 0 0 2 3 4 5 6 -50 7 0 +50 +100 +150 TA[°C] ICCS - VCC TA=+25°C, FMP=2, 4, 8, 10, 16 MHz (divided by 2) Main sleep mode with the external clock operating ICCS - TA VCC=5.5 V, FMP=10, 16 MHz (divided by 2) Main sleep mode with the external clock operating 20 20 15 15 ICCS[mA] ICCS[mA] VCC[V] 10 10 FMP=16 MHz FMP=10 MHz FMP=8 MHz FMP=4 MHz FMP=2 MHz 5 0 2 3 4 5 6 FMP=16 MHz 5 FMP=10 MHz 0 -50 7 0 +50 +150 ICCL - VCC TA=+25°C, FMPL=16 kHz (divided by 2) Subclock mode with the external clock operating ICCL - TA VCC=5.5 V, FMPL=16 kHz (divided by 2) Subclock mode with the external clock operating 100 100 75 75 ICCL[µA] ICCL[µA] +100 TA[°C] VCC[V] 50 50 25 25 0 0 2 3 4 5 VCC[V] 6 7 -50 0 +50 +100 +150 TA[°C] (Continued) Document Number: 002-07463 Rev. *B Page 54 of 66 MB95200H/210H Series (Continued) ICCLS - VCC TA=+25°C, FMPL=16 kHz (divided by 2) Subsleep mode with the external clock operating ICCLS - TA VCC=5.5 V, FMPL=16 kHz (divided by 2) Subsleep mode with the external clock operating 75 75 ICCLS[µA] 100 ICCLS[µA] 100 50 50 25 25 0 0 2 3 4 5 6 -50 7 0 +50 100 100 75 75 ICCT[µA] ICCT[µA] +150 ICCT - TA V=5.5 V, FMPL=16 kHz (divided by 2) Clock mode with the external clock operating ICCT - VCC TA=+25°C, FMPL=16 kHz (divided by 2) Clock mode with the external clock operating 50 25 50 25 0 0 2 3 4 5 6 7 -50 0 VCC[V] +50 +100 +150 TA[°C] ICTS - VCC TA=+25°C, FMP=2, 4, 8, 10, 16 MHz (divided by 2) Timebase timer mode with the external clock operating ICTS - TA V=5.5 V, FMP=10, 16 MHz (divided by 2) Timebase timer mode with the external clock operating 2.0 2.0 1.5 1.5 1.0 FMP=16 MHz 0.5 FMP=10 MHz FMP=8 MHz ICTS[mA] ICTS[mA] +100 TA[°C] VCC[V] FMP=16 MHz 1.0 FMP=10 MHz 0.5 FMP=4 MHz FMP=2 MHz 0.0 0.0 2 3 4 5 VCC[V] 6 7 -50 0 +50 +100 +150 TA[°C] (Continued) Document Number: 002-07463 Rev. *B Page 55 of 66 MB95200H/210H Series ICCH - VCC TA=+25°C, FMPL=(stop) Substop mode wtih the external clock stopping ICCH - TA V=5.5 V, FMPL=(stop) Substop mode with the external clock stopping 20 20 15 15 ICCH[µA] ICCH[µA] (Continued) 10 10 5 5 0 0 2 3 4 5 6 7 -50 0 VCC[V] ICCMCR - VCC TA=+25°C, FMP=1, 8, 10 MHz (no division) Main clock mode with the internal main CR clock operating +100 +150 ICCMCR - TA V=5.5 V, FMPL=1, 8, 10 MHz (no division) Main clock mode with the internal main CR clock operating 20 20 15 15 10 FMP=10 MHz FMP=8 MHz ICCMCR[mA] ICCMCR[mA] +50 TA[°C] 5 10 FMP=10 MHz FMP=8 MHz 5 FMP=1 MHz FMP=1 MHz 0 0 2 3 4 5 6 7 -50 0 +50 +100 +150 TA[°C] ICCSCR - VCC TA=+25°C, FMPL=50 kHz (divided by 2) Subclock mode with the internal sub-CR clock operating ICCSCR - TA VCC=5.5 V, FMPL=50 kHz (divided by 2) Subclock mode with the internal sub-CR clock operating 200 200 150 150 FMPL=50 kHz 100 50 ICCSCR[µA] ICCSCR[µA] VCC[V] FMPL=50 kHz 100 50 0 0 2 3 4 5 VCC[V] Document Number: 002-07463 Rev. *B 6 7 -50 0 +50 +100 +150 TA[°C] Page 56 of 66 MB95200H/210H Series Input voltage VIHS - VCC and VILS - VCC TA=+25°C 5 5 4 4 VIHI 3 VIHS VIHS/VILS[V] VIHI/VILI[V] VIHI - VCC and VILI - VCC TA=+25°C VILI 2 3 VILS 2 1 1 0 0 2 3 4 5 6 7 2 3 VCC[V] 4 5 6 7 VCC[V] VIHM - VCC and VILM - VCC TA=+25°C 5 VIHM/VILM[V] 4 3 VIHM VILM 2 1 0 2 3 4 5 6 7 VCC[V] Document Number: 002-07463 Rev. *B Page 57 of 66 MB95200H/210H Series Output voltage (VCC-VOH2) - IOH TA=+25°C (VCC-VOH1) - IOH TA=+25°C 1.0 1.0 0.8 VCC-VOH2[V] VCC-VOH1[V] 0.8 0.6 0.4 0.6 0.4 0.2 0.2 0.0 0.0 0 -2 -4 -6 -8 0 -10 -2 -4 -8 -10 VCC=2.4 V VCC=2.7 V VCC=3.5 V VCC=4.5 V VCC=5.0 V VCC=5.5 V VOL2 - IOL TA=+25°C VOL1 - IOL TA=+25°C 1.0 1.0 0.8 0.8 0.6 0.6 VOL2[V] VOL1[V] -6 IOH[mA] IOH[mA] VCC=2.4 V VCC=2.7 V VCC=3.5 V VCC=4.5 V VCC=5.0 V VCC=5.5 V 0.4 0.2 0.4 0.2 0.0 0.0 0 2 4 6 8 10 0 2 4 6 IOL[mA] IOL[mA] VCC=2.4 V VCC=2.7 V VCC=3.5 V VCC=4.5 V VCC=5.0 V VCC=5.5 V VCC=2.4 V VCC=2.7 V VCC=3.5 V VCC=4.5 V VCC=5.0 V VCC=5.5 V Document Number: 002-07463 Rev. *B 8 10 12 Page 58 of 66 MB95200H/210H Series Pull-up RPULL - VCC TA=+25°C 250 RPULL[kΩ] 200 150 100 50 0 2 3 4 5 6 VCC[V] Document Number: 002-07463 Rev. *B Page 59 of 66 MB95200H/210H Series 20. Mask Options No. 1 2 Part Number MB95F204H MB95F203H MB95F202H MB95F214H MB95F213H MB95F212H MB95F204K MB95F203K MB95F202K MB95F214K MB95F213K MB95F212K Selection Method Setting disabled Setting disabled Low-voltage detection reset •With low-voltage detection reset •Without low-voltage detection reset Without low-voltage detection reset With low-voltage detection reset Reset •With dedicated reset input •Without dedicated reset input With dedicated reset input Without dedicated reset input 21. Ordering Information Part Number Package MB95F204HP-G-SH-SNE2 MB95F204KP-G-SH-SNE2 MB95F203HP-G-SH-SNE2 MB95F203KP-G-SH-SNE2 MB95F202HP-G-SH-SNE2 MB95F202KP-G-SH-SNE2 24-pin plastic SDIP (DIP-24P-M07) MB95F204HPF-G-SNE2 MB95F204KPF-G-SNE2 MB95F203HPF-G-SNE2 MB95F203KPF-G-SNE2 MB95F202HPF-G-SNE2 MB95F202KPF-G-SNE2 20-pin plastic SOP (FPT-20P-M09) MB95F214HPH-G-SNE2 MB95F214KPH-G-SNE2 MB95F213HPH-G-SNE2 MB95F213KPH-G-SNE2 MB95F212HPH-G-SNE2 MB95F212KPH-G-SNE2 8-pin plastic DIP (DIP-8P-M03) MB95F214HPF-G-SNE2 MB95F214KPF-G-SNE2 MB95F213HPF-G-SNE2 MB95F213KPF-G-SNE2 MB95F212HPF-G-SNE2 MB95F212KPF-G-SNE2 8-pin plastic SOP (FPT-8P-M08) Document Number: 002-07463 Rev. *B Page 60 of 66 MB95200H/210H Series 22. Package Dimensions 24-pin plastic SDIP Lead pitch 1.778 mm Package width × package length 6.40 mm × 22.86 mm Sealing method Plastic mold Mounting height 4.80 mm Max (DIP-24P-M07) 24-pin plastic SDIP (DIP-24P-M07) Note 1) Pins width and pins thickness include plating thickness. Note 2) Pins width do not include tie bar cutting remainder. Note 3) # : These dimensions do not include resin protrusion. #22.86±0.10(.900±.004) 24 13 BTM E-MARK INDEX 6.40±0.10 (.252±.004) 1 7.62(.300) TYP. 12 0.50(.020) MIN 4.80(.189)MAX +0.10 +0.20 0.25 –0.04 +.008 +.004 3.00 –0.30 .118 –.012 1.778(.070) C .010 –.002 1.00±0.10 (.039±.004) 2008-2010 FUJITSU SEMICONDUCTOR LIMITED D24066S-c-1-2 +0.09 0.43 –0.04 +.004 .017 –.002 Dimensions in mm (inches). Note: The values in parentheses are reference values (Continued) Document Number: 002-07463 Rev. *B Page 61 of 66 MB95200H/210H Series 20-pin plastic SOP Lead pitch 1.27 mm Package width × package length 7.50 mm × 12.70 mm Lead shape Gullwing Lead bend direction Normal bend Sealing method Plastic mold Mounting height 2.65 mm Max (FPT-20P-M09) 20-pin plastic SOP (FPT-20P-M09) Note 1) Pins width and pins thickness include plating thickness. Note 2) Pins width do not include tie bar cutting remainder. Note 3) # : These dimensions do not include resin protrusion. 0.25 #12.70±0.10(.500±.004) .010 20 +0.07 –0.02 +.003 –.001 11 BTM E-MARK +0.40 #7.50±0.10 10.2 –0.20 (.295±.004) .402 +.016 –.008 INDEX Details of "A" part +0.13 2.52 –0.17 (Mounting height) +.005 .099 –.007 1 "A" 10 +0.09 1.27(.050) 0.40 –0.05 +.004 0.25(.010) M 0~8° .016 –.002 +0.47 0.80 –0.30 +.019 .031 –.012 0.20±0.10 (.008±.004) (Stand off) 0.10(.004) C 2008-2010 FUJITSU SEMICONDUCTOR LIMITED F20030S-c-1-2 Dimensions in mm (inches). Note: The values in parentheses are reference values. (Continued) Document Number: 002-07463 Rev. *B Page 62 of 66 MB95200H/210H Series 8-pin plastic DIP Lead pitch 2.54 mm Sealing method Plastic mold (DIP-8P-M03) 8-pin plastic DIP (DIP-8P-M03) 9.40 .370 8 +0.40 –0.30 +.016 –.012 5 INDEX 6.35±0.25 (.250±.010) 1 4 7.62(.300) TYP. 4.36(.172)MAX 0.50(.020) MIN 0.25±0.05 (.010±.002) 3.00(.118)MIN +0.35 0.46±0.08 (.018±.003) 0.89 –0.30 +.014 .035 –.012 +0.30 0.99 –0 .039 C +.012 –0 +0.30 1.52 –0 15° MAX +.012 .060 –0 2.54(.100) TYP. 2006-2010 FUJITSU SEMICONDUCTOR LIMITED D08008S-c-1-4 Dimensions in mm (inches). Note: The values in parentheses are reference values (Continued) Document Number: 002-07463 Rev. *B Page 63 of 66 MB95200H/210H Series (Continued) 8-pin plastic SOP Lead pitch 1.27 mm Package width × package length 5.30 mm × 5.24 mm Lead shape Gullwing Lead bend direction Normal bend Sealing method Plastic mold Mounting height 2.10 mm Max (FPT-8P-M08) 8-pin plastic SOP (FPT-8P-M08) Note 1) Pins width and pins thickness include plating thickness. Note 2) Pins width do not include tie bar cutting remainder. Note 3) # : These dimensions do not include resin protrusion. #5.24±0.10 (.206±.004) 8 5 "A" BTM E-MARK #5.30±0.10 (.209±.004) INDEX 7.80 .307 +0.45 –0.10 +.018 –.004 Details of "A" part 2.10(.083) MAX (Mounting height) 1 1.27(.050) 4 0.43±0.05 (.017±.002) 0.20±0.05 (.008±.002) 0~8° +0.15 0.10 –0.05 +.006 .004 –.002 (Stand off) C 2008-2010 FUJITSU SEMICONDUCTOR LIMITED F08016S-c-1-2 Document Number: 002-07463 Rev. *B +0.10 0.75 –0.20 +.004 .030 –.008 Dimensions in mm (inches). Note: The values in parentheses are reference values. Page 64 of 66 MB95200H/210H Series 23. Major Changes Spansion Publication Number: DS07-12623-5E Page 30 Section Electrical Characteristics 1. Absolute Maximum Ratings 33 Corrected the maximum value of Open-drain output application voltage. 0.2Vcc → Vss 5.5 36 42 43 58 Changed the characteristics of Input voltage. Corrected the maximum value of “H” level input voltage for PF2 pin. VCC 0.3 → 10.5 3. DC Characteristics 39 Change results Added the footnote *5. 4. AC Characteristics (1) Clock Timing Added a figure of HCLK1/HCLK2. (2) Source Clock/Machine Clock Corrected the graph of Operating voltage - Operating frequency (with the on-chip debug function). (Corrected the pitch) (3) External Reset Added “and power on” to the remarks column. 6. Flash Memory Program/Erase Characteristics Added the row of “Current drawn on PF2”. Corrected the minimum value of Power supply voltage at erase/program. 4.5 → 3.0 Note: Please see “Document History” about later revised information. Document History Document Title: MB95200H/210H Series F2MC-8FX 8-bit Microcontroller Document Number: 002-07463 Revision ECN Orig. of Change Submission Date ** – AKIH 07/16/2010 Migrated to Cypress and assigned document number 002-07463. No change to document contents or format. Description of Change *A 5177811 AKIH 03/18/2016 Updated to Cypress format. *B 5861642 YSAT 08/24/2017 Adapted new Cypress logo Document Number: 002-07463 Rev. *B Page 65 of 66 MB95200H/210H Series Sales, Solutions, and Legal Information Worldwide Sales and Design Support Cypress maintains a worldwide network of offices, solution centers, manufacturer’s representatives, and distributors. To find the office closest to you, visit us at Cypress Locations. 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Document Number: 002-07463 Rev. *B Revised August 24, 2017 Page 66 of 66