Datasheet AT89S53 (Microchip) - 8
| 制造商 | Microchip |
| 描述 | 8-bit Microcontroller with 12K Bytes Flash |
| 页数 / 页 | 35 / 8 — Table 4. Symbol. Function. Table 5. Table 6. AT89S53 |
| 文件格式/大小 | PDF / 892 Kb |
| 文件语言 | 英语 |
Table 4. Symbol. Function. Table 5. Table 6. AT89S53
该数据表的模型线
文件文字版本
Table 4.
SPCR—SPI Control Register SPCR Address = D5H Reset Value = 0000 01XXB SPIE SPE DORD MSTR CPOL CPHA SPR1 SPR0 Bit 7 6 5 4 3 2 1 0
Symbol Function
SPIE SPI Interrupt Enable. This bit, in conjunction with the ES bit in the IE register, enables SPI interrupts: SPIE = 1 and ES = 1 enable SPI interrupts. SPIE = 0 disables SPI interrupts. SPE SPI Enable. SPI = 1 enables the SPI channel and connects SS, MOSI, MISO and SCK to pins P1.4, P1.5, P1.6, and P1.7. SPI = 0 disables the SPI channel. DORD Data Order. DORD = 1 selects LSB first data transmission. DORD = 0 selects MSB first data transmission. MSTR Master/Slave Select. MSTR = 1 selects Master SPI mode. MSTR = 0 selects Slave SPI mode. CPOL Clock Polarity. When CPOL = 1, SCK is high when idle. When CPOL = 0, SCK of the master device is low when not transmitting. Please refer to figure on SPI Clock Phase and Polarity Control. CPHA Clock Phase. The CPHA bit together with the CPOL bit controls the clock and data relationship between master and slave. Please refer to figure on SPI Clock Phase and Polarity Control. SPR0 SPI Clock Rate Select. These two bits control the SCK rate of the device configured as master. SPR1 and SPR0 have SPR1 no effect on the slave. The relationship between SCK and the oscillator frequency, F , is as follows: OSC. SPR1SPR0SCK = F divided by OSC. 0 0 4 0 1 16 1 0 64 1 1 128
Table 5.
SPSR—SPI Status Register Data Memory - RAM SPSR Address = AAH Reset Value = 00XX XXXXB SPIF WCOL – – – – – – Bit 7 6 5 4 3 2 1 0
Symbol Function
SPIF SPI Interrupt Flag. When a serial transfer is complete, the SPIF bit is set and an interrupt is generated if SPIE = 1 and ES = 1. The SPIF bit is cleared by reading the SPI status register with SPIF and WCOL bits set, and then accessing the SPI data register. WCOL Write Collision Flag. The WCOL bit is set if the SPI data register is written during a data transfer. During data transfer, the result of reading the SPDR register may be incorrect, and writing to it has no effect. The WCOL bit (and the SPIF bit) are cleared by reading the SPI status register with SPIF and WCOL set, and then accessing the SPI data register.
Table 6.
SPDR—SPI Data Register SPDR Address = 86H Reset Value = unchanged SPD7 SPD6 SPD5 SPD4 SPD3 SPD2 SPD1 SPD0 Bit 7 6 5 4 3 2 1 0
8 AT89S53
0787E–MICRO–3/06 Document Outline Block Diagram Instruction Set Features Description Pin Description VCC GND Port 0 Port 1 Pin Description Port 2 Port 3 RST ALE/PROG PSEN EA/VPP XTAL1 XTAL2 Special Function Registers Data Memory - RAM Programmable Watchdog Timer Timer 0 and 1 Timer 2 Capture Mode Auto-reload (Up or Down Counter) Baud Rate Generator Programmable Clock Out UART Serial Peripheral Interface Interrupts Oscillator Characteristics Idle Mode Status of External Pins During Idle and Power-down Modes Power-down Mode Program Memory Lock Bits Lock Bit Protection Modes(1)(2) Programming the Flash Programming Interface Serial Downloading Either an external system clock is supplied at pin XTAL1 or a crystal needs to be connected across pins XTAL1 and XTAL2. The max... Serial Programming Algorithm Serial Programming Instruction Flash Parallel Programming Modes Flash Programming and Verification Characteristics - Parallel Mode Flash Programming and Verification Waveforms - Parallel Mode Serial Downloading Waveforms Absolute Maximum Ratings* DC Characteristics AC Characteristics External Program and Data Memory Characteristics External Program Memory Read Cycle External Data Memory Read Cycle External Data Memory Write Cycle External Clock Drive Waveforms External Clock Drive Serial Port Timing: Shift Register Mode Test Conditions Shift Register Mode Timing Waveforms AC Testing Input/Output Waveforms(1) Float Waveforms(1) Ordering Information Pin Configurations
SPCR—SPI Control Register SPCR Address = D5H Reset Value = 0000 01XXB SPIE SPE DORD MSTR CPOL CPHA SPR1 SPR0 Bit 7 6 5 4 3 2 1 0
Symbol Function
SPIE SPI Interrupt Enable. This bit, in conjunction with the ES bit in the IE register, enables SPI interrupts: SPIE = 1 and ES = 1 enable SPI interrupts. SPIE = 0 disables SPI interrupts. SPE SPI Enable. SPI = 1 enables the SPI channel and connects SS, MOSI, MISO and SCK to pins P1.4, P1.5, P1.6, and P1.7. SPI = 0 disables the SPI channel. DORD Data Order. DORD = 1 selects LSB first data transmission. DORD = 0 selects MSB first data transmission. MSTR Master/Slave Select. MSTR = 1 selects Master SPI mode. MSTR = 0 selects Slave SPI mode. CPOL Clock Polarity. When CPOL = 1, SCK is high when idle. When CPOL = 0, SCK of the master device is low when not transmitting. Please refer to figure on SPI Clock Phase and Polarity Control. CPHA Clock Phase. The CPHA bit together with the CPOL bit controls the clock and data relationship between master and slave. Please refer to figure on SPI Clock Phase and Polarity Control. SPR0 SPI Clock Rate Select. These two bits control the SCK rate of the device configured as master. SPR1 and SPR0 have SPR1 no effect on the slave. The relationship between SCK and the oscillator frequency, F , is as follows: OSC. SPR1SPR0SCK = F divided by OSC. 0 0 4 0 1 16 1 0 64 1 1 128
Table 5.
SPSR—SPI Status Register Data Memory - RAM SPSR Address = AAH Reset Value = 00XX XXXXB SPIF WCOL – – – – – – Bit 7 6 5 4 3 2 1 0
Symbol Function
SPIF SPI Interrupt Flag. When a serial transfer is complete, the SPIF bit is set and an interrupt is generated if SPIE = 1 and ES = 1. The SPIF bit is cleared by reading the SPI status register with SPIF and WCOL bits set, and then accessing the SPI data register. WCOL Write Collision Flag. The WCOL bit is set if the SPI data register is written during a data transfer. During data transfer, the result of reading the SPDR register may be incorrect, and writing to it has no effect. The WCOL bit (and the SPIF bit) are cleared by reading the SPI status register with SPIF and WCOL set, and then accessing the SPI data register.
Table 6.
SPDR—SPI Data Register SPDR Address = 86H Reset Value = unchanged SPD7 SPD6 SPD5 SPD4 SPD3 SPD2 SPD1 SPD0 Bit 7 6 5 4 3 2 1 0
8 AT89S53
0787E–MICRO–3/06 Document Outline Block Diagram Instruction Set Features Description Pin Description VCC GND Port 0 Port 1 Pin Description Port 2 Port 3 RST ALE/PROG PSEN EA/VPP XTAL1 XTAL2 Special Function Registers Data Memory - RAM Programmable Watchdog Timer Timer 0 and 1 Timer 2 Capture Mode Auto-reload (Up or Down Counter) Baud Rate Generator Programmable Clock Out UART Serial Peripheral Interface Interrupts Oscillator Characteristics Idle Mode Status of External Pins During Idle and Power-down Modes Power-down Mode Program Memory Lock Bits Lock Bit Protection Modes(1)(2) Programming the Flash Programming Interface Serial Downloading Either an external system clock is supplied at pin XTAL1 or a crystal needs to be connected across pins XTAL1 and XTAL2. The max... Serial Programming Algorithm Serial Programming Instruction Flash Parallel Programming Modes Flash Programming and Verification Characteristics - Parallel Mode Flash Programming and Verification Waveforms - Parallel Mode Serial Downloading Waveforms Absolute Maximum Ratings* DC Characteristics AC Characteristics External Program and Data Memory Characteristics External Program Memory Read Cycle External Data Memory Read Cycle External Data Memory Write Cycle External Clock Drive Waveforms External Clock Drive Serial Port Timing: Shift Register Mode Test Conditions Shift Register Mode Timing Waveforms AC Testing Input/Output Waveforms(1) Float Waveforms(1) Ordering Information Pin Configurations