C8051F321-GMR Datasheet, PDF(188/250 Page) Silicon Laboratories – Full Speed USB, 16 k ISP FLASH MCU Family

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C8051F321-GMR Datasheet, PDF (188/250 Pages) Silicon Laboratories – Full Speed USB, 16 k ISP FLASH MCU Family

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C8051F320/1

17.1. Enhanced Baud Rate Generation

The UART0 baud rate is generated by Timer 1 in 8-bit auto-reload mode. The TX clock is generated by

TL1; the RX clock is generated by a copy of TL1 (shown as RX Timer in Figure 17.2), which is not user-

accessible. Both TX and RX Timer overflows are divided by two to generate the TX and RX baud rates.

The RX Timer runs when Timer 1 is enabled, and uses the same reload value (TH1). However, an

RX Timer reload is forced when a START condition is detected on the RX pin. This allows a receive to

begin any time a START is detected, independent of the TX Timer state.

Timer 1

TL1

Overflow

UART

2

TX Clock

Start

Detected

TH1

RX Timer

Overflow

2

RX Clock

Figure 17.2. UART0 Baud Rate Logic

Timer 1 should be configured for Mode 2, 8-bit auto-reload (see Section â19.1.3. Mode 2: 8-bit Coun-

ter/Timer with Auto-Reloadâ on page 211). The Timer 1 reload value should be set so that overflows will

occur at two times the desired UART baud rate frequency. Note that Timer 1 may be clocked by one of six

sources: SYSCLK, SYSCLK / 4, SYSCLK / 12, SYSCLK / 48, the external oscillator clock / 8, or an exter-

nal input T1. For any given Timer 1 clock source, the UART0 baud rate is determined by Equation 17.1.

Equation 17.1. UART0 Baud Rate

UartBaudRate

=

--------T----1---C---L---K---------

ï¨256 â T1Hï©

ï´

1--

2

Where T1CLK is the frequency of the clock supplied to Timer 1, and T1H is the high byte of Timer 1 (reload

value). Timer 1 clock frequency is selected as described in Section â19. Timersâ on page 209. A quick ref-

erence for typical baud rates and system clock frequencies is given in Table 17.1. Note that the internal

oscillator may still generate the system clock when the external oscillator is driving Timer 1.

17.2. Operational Modes

UART0 provides standard asynchronous, full duplex communication. The UART mode (8-bit or 9-bit) is

selected by the S0MODE bit (SCON0.7). Typical UART connection options are shown below.

188

Rev. 1.4

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