ST7263BK1 STMicroelectronics, ST7263BK1 Datasheet - Page 87

ST7263BK1

Manufacturer Part Number

ST7263BK1

Description

LOW SPEED USB 8-BIT MCU FAMILY WITH UP TO 32K FLASH/ROM, DFU CAPABILITY, 8-BIT ADC, WDG, TIMER, SCI and I2C

Manufacturer

STMicroelectronics

Datasheet

1.ST7263BH6.pdf (186 pages)

Specifications of ST7263BK1

4, 8, 16 Or 32 Kbytes Program Memory

high density Flash (HDFlash), FastROM or ROM with Read-Out and Write protection

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ST7263Bxx

Note:

Parity control

Parity control (generation of parity bit in transmission and parity checking in reception) can

be enabled by setting the PCE bit in the SCICR1 register. Depending on the frame length

defined by the M bit, the possible SCI frame formats are as listed in

Table 26.

1. SB = Start Bit, STB = Stop Bit, PB = Parity Bit

In case of wakeup by an address mark, the MSB bit of the data is taken into account and not

the parity bit

Even parity: the parity bit is calculated to obtain an even number of “1s” inside the frame

made of the 7 or 8 LSB bits (depending on whether M is equal to 0 or 1) and the parity bit.

Ex: data=00110101; 4 bits set => parity bit will be 0 if even parity is selected (PS bit = 0).

Odd parity: the parity bit is calculated to obtain an odd number of “1s” inside the frame

made of the 7 or 8 LSB bits (depending on whether M is equal to 0 or 1) and the parity bit.

Ex: data=00110101; 4 bits set => parity bit will be 1 if odd parity is selected (PS bit = 1).

Transmission mode: If the PCE bit is set then the MSB bit of the data written in the data

Reception mode: If the PCE bit is set then the interface checks if the received data byte

has an even number of “1s” if even parity is selected (PS=0) or an odd number of “1s” if odd

parity is selected (PS=1). If the parity check fails, the PE flag is set in the SCISR register

and an interrupt is generated if PIE is set in the SCICR1 register.

SCI clock tolerance

During reception, each bit is sampled 16 times. The majority of the 8th, 9th and 10th

samples is considered as the bit value. For a valid bit detection, all the three samples should

have the same value otherwise the noise flag (NF) is set. For example: if the 8th, 9th and

10th samples are 0, 1 and 1 respectively, then the bit value will be “1”, but the Noise Flag bit

is be set because the three samples values are not the same.

Consequently, the bit length must be long enough so that the 8th, 9th and 10th samples

have the desired bit value. This means the clock frequency should not vary more than 6/16

(37.5%) within one bit. The sampling clock is resynchronized at each start bit, so that when

receiving 10 bits (one start bit, 1 data byte, 1 stop bit), the clock deviation must not exceed

3.75%.

The internal sampling clock of the microcontroller samples the pin value on every falling

edge. Therefore, the internal sampling clock and the time the application expects the

sampling to take place may be out of sync. For example: If the baud rate is 15.625 kbaud (bit

length is 64µs), then the 8th, 9th and 10th samples will be at 28µs, 32 µs & 36 µs

respectively (the first sample starting ideally at 0 µs). But if the falling edge of the internal

M bit

Frame formats

PCE bit

(1)

Doc ID 7516 Rev 8

| SB | 7-bit data | PB | STB |

| SB | 8-bit data PB | STB |

| SB | 8 bit data | STB |

| SB | 9-bit data | STB |

SCI frame

Table

On-chip peripherals

26.

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ST7263BK1 STMicroelectronics, ST7263BK1 Datasheet - Page 87

ST7263BK1

Specifications of ST7263BK1

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