C8051F526-IMR Silicon Labs, C8051F526-IMR Datasheet - Page 55

C8051F526-IMR

Manufacturer Part Number

C8051F526-IMR

Description

8-bit Microcontrollers - MCU 2KB 12ADC 125C LIN 10Pin MCU

Manufacturer

Silicon Labs

Datasheet

1.C8051F536-ITR.pdf (220 pages)

Specifications of C8051F526-IMR

Product Category

8-bit Microcontrollers - MCU

Rohs

yes

Core

8051

Data Bus Width

8 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

2 KB

Data Ram Size

256 B

On-chip Adc

Yes

Package / Case

DFN-10

Mounting Style

SMD/SMT

A/d Bit Size

12 bit

A/d Channels Available

Interface Type

SPI, UART

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Number Of Programmable I/os

Number Of Timers

On-chip Dac

Processor Series

C8051

Program Memory Type

Flash

Factory Pack Quantity

1500

Supply Voltage - Max

2.7 V, 5.25 V

Supply Voltage - Min

2 V, 2.7 V

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Post-Tracking Mode is selected when AD0TM is set to 01b. A programmable tracking time based on

AD0TK is started immediately following the convert start signal. Conversions are started after the pro-

grammed tracking time ends. After a conversion is complete, ADC0 does not track the input. Rather, the

sampling capacitor remains disconnected from the input making the input pin high-impedance until the

next convert start signal.

Dual-Tracking Mode is selected when AD0TM is set to 11b. A programmable tracking time based on

AD0TK is started immediately following the convert start signal. Conversions are started after the pro-

grammed tracking time ends. After a conversion is complete, ADC0 tracks continuously until the next con-

version is started.

Depending on the output connected to the ADC input, additional tracking time, more than is specified in

Table 2.3 on page 28, may be required after changing MUX settings. See the settling time requirements

described in Section “4.3.6. Settling Time Requirements” on page 60.

4.3.3. Timing

ADC0 has a maximum conversion speed specified in Table 2.3 on page 28. ADC0 is clocked from the

ADC0 Subsystem Clock (FCLK). The source of FCLK is selected based on the BURSTEN bit. When

BURSTEN is logic 0, FCLK is derived from the current system clock. When BURSTEN is logic 1, FCLK is

derived from the Burst Mode Oscillator, which is an independent clock source whose maximum frequency

is specified in Table 2.3 on page 28.

When ADC0 is performing a conversion, it requires a clock source that is typically slower than FCLK. The

ADC0 SAR conversion clock (SAR clock) is a divided version of FCLK. The divide ratio can be configured

using the AD0SC bits in the ADC0CF register. The maximum SAR clock frequency is listed in Table 2.3 on

page 28.

ADC0 can be in one of three states at any given time: tracking, converting, or idle. Tracking time depends

on the tracking mode selected. For Pre-Tracking Mode, tracking is managed by software and ADC0 starts

conversions immediately following the convert start signal. For Post-Tracking and Dual-Tracking Modes,

the tracking time after the convert start signal is equal to the value determined by the AD0TK bits plus 2

FCLK cycles. Tracking is immediately followed by a conversion. The ADC0 conversion time is always 13

SAR clock cycles plus an additional 2 FCLK cycles to start and complete a conversion. Figure 4.4 shows

timing diagrams for a conversion in Pre-Tracking Mode and tracking plus conversion in Post-Tracking or

Dual-Tracking Mode. In this example, repeat count is set to one.

Dual-Tracking

Post-Tracking

Convert Start

Pre-Tracking

AD0TM = 10

AD0TM = 11

AD0TM= 01

Track

Idle

Track

Figure 4.3. ADC0 Tracking Modes

Convert

Rev. 1.4

Convert

C8051F52x/F53x

Track

Idle

Track

Convert ...

Convert..

C8051F526-IMR Silicon Labs, C8051F526-IMR Datasheet - Page 55

C8051F526-IMR

Specifications of C8051F526-IMR

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