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LC88F52H0A Datasheet, PDF (3/31 Pages) Sanyo Semicon Device – FROM 128K byte, RAM 6K byte on-chip 16-bit 1-chip Microcontroller
LC88F58B0A
„Serial Interfaces
• SIO0: 8-bit synchronous SIO
1) LSB first/MSB first mode selectable
2) Supports data communication with a data length of 8 bits or less (1 to 8 bits specifiable)
3) Built-in 8-bit baudrate generator (4 tCYC to 512 tCYC transfer clocks)
4) Continuous/automatic data transmission (9- to 32768-bit units specifiable)
5) Interval function (intervals specifiable in 0 to 64 tSCK units)
6) Wakeup function
• SIO1: 8-bit synchronous SIO
1) LSB first/MSB first mode selectable
2) Supports data communication with a data length of 8 bits or less (1 to 8 bits specifiable)
3) Built-in 8-bit baudrate generator (4 tCYC to 512 tCYC transfer clocks)
4) Continuous/automatic data transmission (9- to 32768-bit units specifiable)
5) Interval function (intervals specifiable in 0 to 64 tSCK units)
6) Wakeup function
• SMIIC0: Single master I2C/8-bit synchronous SIO
Mode 0: Single-master mode communication
Mode 1: Synchronous 8-bit serial I/O (MSB first)
• UART0
1) Data length
: 8 bits (LSB first)
2) Start bits
: 1 bit
3) Stop bits
: 1 bit
4) Parity bits
: None/even parity/odd parity
5) Transfer rate
: 4/8 cycle
6) Baudrate source clock: P07 input signal used as a 1 cycle signal (T0PWMH can be used as a clock source)
7) Full duplex communication
Note: The “cycle” refers to one period of the baudrate clock source.
• UART2
1) Data length
: 8 bits (LSB first)
2) Start bits
: 1 bit
3) Stop bits
: 1/2 bit
4) Parity bits
: None/even parity/odd parity
5) Transfer rate
: 8 to 4096 cycle
6) Baudrate source clock : System clock/OSC0/OSC1
7) Wakeup function
8) Full duplex communication
Note: The “cycle” refers to one period of the baudrate clock source.
„AD Converter
1) 12/8 bits resolution selectable
2) Analog input: 11 channels
3) Comparator mode
4) Automatic reference voltage generation
„PWM
• PWM0: Multifrequency 12-bit PWM × 2 channels (PWM0A and PWM0B)
1) 2-channel pairs controlled independently of one another
2) Clock source selectable from system clock or OSC1
3) 8-bit prescaler: TPWMR0=(prescaler value + 1) × clock period
4) 8-bit fundamental wave PWM generator circuit + 4-bit additional pulse generator circuit
5) Fundamental wave PWM mode
Fundamental wave period : 16 TPWMR0 to 256 TPWMR0
High pulse width
: 0 to (Fundamental wave period - TPWMR0)
6) Fundamental wave + additional pulse mode
Fundamental wave period : 16 TPWMR0 to 256 TPWMR0
Overall period
: Fundamental wave period × 16
High pulse width
: 0 to (Fundamental wave period - TPWMR0)
No.A1951-3/31