C8051F961-A-GM Silicon Labs, C8051F961-A-GM Datasheet - Page 80

C8051F961-A-GM

Manufacturer Part Number

C8051F961-A-GM

Description

8-bit Microcontrollers - MCU 128KB, DC-DC, LCD AES, QFN40

Manufacturer

Silicon Labs

Datasheet

1.C8051F960-A-GQ.pdf (492 pages)

Specifications of C8051F961-A-GM

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

128 KB

Data Ram Size

8448 B

On-chip Adc

Yes

Operating Supply Voltage

2.5 V to 3.3 V

Operating Temperature Range

- 40 C to + 85 C

Package / Case

QFN-40

Mounting Style

SMD/SMT

Number Of Programmable I/os

Number Of Timers

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5.2. Modes of Operation

ADC0 has a maximum conversion speed of 300 ksps in 10-bit mode. The ADC0 conversion clock (SAR-

CLK) is a divided version of the system clock when burst mode is disabled (BURSTEN = 0), or a divided

version of the low power oscillator when burst mode is enabled (BURSEN = 1). The clock divide value is

determined by the AD0SC bits in the ADC0CF register.

5.2.1. Starting a Conversion

A conversion can be initiated in one of five ways, depending on the programmed states of the ADC0 Start

of Conversion Mode bits (AD0CM2–0) in register ADC0CN. Conversions may be initiated by one of the fol-

lowing:

Writing a 1 to AD0BUSY provides software control of ADC0 whereby conversions are performed "on-

demand". During conversion, the AD0BUSY bit is set to logic 1 and reset to logic 0 when the conversion is

complete. The falling edge of AD0BUSY triggers an interrupt (when enabled) and sets the ADC0 interrupt

flag (AD0INT). When polling for ADC conversion completions, the ADC0 interrupt flag (AD0INT) should be

used. Converted data is available in the ADC0 data registers, ADC0H:ADC0L, when bit AD0INT is logic 1.

When Timer 2 or Timer 3 overflows are used as the conversion source, Low Byte overflows are used if

Timer 2/3 is in 8-bit mode; High byte overflows are used if Timer 2/3 is in 16-bit mode. See “32. Timers” on

page 444 for timer configuration.

Important Note About Using CNVSTR: The CNVSTR input pin also functions as Port pin P0.6. When the

CNVSTR input is used as the ADC0 conversion source, Port pin P0.6 should be skipped by the Digital

Crossbar. To configure the Crossbar to skip P0.6, set to 1 Bit 6 in register P0SKIP. See “27. Port Input/Out-

put” on page 351 for details on Port I/O configuration.

5.2.2. Tracking Modes

Each ADC0 conversion must be preceded by a minimum tracking time in order for the converted result to

be accurate. The minimum tracking time is given in Table 4.12. The AD0TM bit in register ADC0CN con-

trols the ADC0 track-and-hold mode. In its default state when Burst Mode is disabled, the ADC0 input is

continuously tracked, except when a conversion is in progress. When the AD0TM bit is logic 1, ADC0

operates in low-power track-and-hold mode. In this mode, each conversion is preceded by a tracking

period of 3 SAR clocks (after the start-of-conversion signal). When the CNVSTR signal is used to initiate

conversions in low-power tracking mode, ADC0 tracks only when CNVSTR is low; conversion begins on

the rising edge of CNVSTR (see Figure 5.2). Tracking can also be disabled (shutdown) when the device is

in low power standby or sleep modes. Low-power track-and-hold mode is also useful when AMUX settings

are frequently changed, due to the settling time requirements described in “5.2.4. Settling Time Require-

ments” on page 83.

1. Writing a 1 to the AD0BUSY bit of register ADC0CN

2. A Timer 0 overflow (i.e., timed continuous conversions)

3. A Timer 2 overflow

4. A Timer 3 overflow

5. A rising edge on the CNVSTR input signal (pin P0.6)

Rev. 0.5

C8051F961-A-GM Silicon Labs, C8051F961-A-GM Datasheet - Page 80

C8051F961-A-GM

Specifications of C8051F961-A-GM

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