C8051F064-GQ Silicon Laboratories Inc, C8051F064-GQ Datasheet - Page 54

C8051F064-GQ

Manufacturer Part Number

C8051F064-GQ

Description

IC 8051 MCU 64K FLASH 100TQFP

Manufacturer

Silicon Laboratories Inc

Series

C8051F06xr

Datasheets

1.C8051F060-TB.pdf (328 pages)

2.C8051F064-GQ.pdf (2 pages)

Specifications of C8051F064-GQ

Program Memory Type

FLASH

Program Memory Size

64KB (64K x 8)

Package / Case

100-TQFP, 100-VQFP

Core Processor

8051

Core Size

8-Bit

Speed

25MHz

Connectivity

EBI/EMI, SMBus (2-Wire/I²C), SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, PWM, WDT

Number Of I /o

Ram Size

4.25K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 3.6 V

Data Converters

A/D 2x16b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Processor Series

C8051F0x

Core

8051

Data Bus Width

8 bit

Data Ram Size

4.25 KB

Interface Type

I2C, SMBus, SPI, UART

Maximum Clock Frequency

25 MHz

Number Of Programmable I/os

Number Of Timers

Operating Supply Voltage

2.7 V to 3.6 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

3rd Party Development Tools

PK51, CA51, A51, ULINK2

Development Tools By Supplier

C8051F060DK

Minimum Operating Temperature

- 40 C

On-chip Adc

16 bit, 1 Channel

On-chip Dac

12 bit, 2 Channel

No. Of I/o's

Ram Memory Size

4352Byte

Cpu Speed

25MHz

No. Of Timers

Rohs Compliant

Yes

Package

100TQFP

Device Core

8051

Family Name

C8051F06x

Maximum Speed

25 MHz

Data Rom Size

64 KB

A/d Bit Size

16 bit

A/d Channels Available

Height

1.05 mm

Length

14 mm

Supply Voltage (max)

3.6 V

Supply Voltage (min)

2.7 V

Width

14 mm

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

336-1219 - KIT EVAL FOR C8051F064

Eeprom Size

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1218

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Current page: 54 of 328
Download datasheet (2Mb)

C8051F060/1/2/3/4/5/6/7

5.3.

ADC0 and ADC1 have a maximum conversion speed of 1 Msps. The conversion clocks for the ADCs are

derived from the system clock. The ADCnSC bits in the ADCnCF register determine how many system

clocks (from 1 to 16) are used for each conversion clock.

5.3.1. Starting a Conversion

For ADC0, conversions can be initiated in one of four ways, depending on the programmed states of the

ADC0 Start of Conversion Mode bits (AD0CM1, AD0CM0) in ADC0CN. For ADC0, conversions may be ini-

tiated by:

ADC1 conversions can be initiated in five different ways, according to the ADC1 Start of Conversion Mode

bits (AD1CM2-AD1CM0) in ADC1CN. For ADC1, conversions may be initiated by:

The ADnBUSY bit is set to logic 1 during conversion and restored to logic 0 when conversion is complete.

The falling edge of ADnBUSY triggers an interrupt (when enabled) and sets the ADnINT interrupt flag

(ADCnCN.5). In single-ended mode, the converted data for ADCn is available in the ADCn data word MSB

and LSB registers, ADCnH, ADCnL. In differential mode, the converted data (combined from ADC0 and

ADC1) is available in the ADC0 data word MSB and LSB registers, ADC0H, ADC0L.

When initiating conversions by writing a ‘1’ to ADnBUSY, the ADnINT bit should be polled to determine

when a conversion has completed (ADCn interrupts may also be used). The recommended polling proce-

dure is shown below.

When an external start-of-conversion source is required in differential mode the two pins (CNVSTR0 and

CNVSTR1) should be tied together.

5.3.2. Tracking Modes

The ADnTM bit in register ADCnCN controls the ADCn track-and-hold mode. When the ADC is enabled,

the ADC input is continuously tracked when a conversion is not in progress. When the ADnTM bit is logic

1, each conversion is preceded by a tracking period (after the start-of-conversion signal). When the

CNVSTRn signal is used to initiate conversions, the ADC will track until a rising edge occurs on the

CNVSTRn pin (see Figure 5.4 and Table 5.1 for conversion timing parameters). Setting ADnTM to 1 can

be useful to ensure that settling time requirements are met when an external multiplexer is used on the

analog input (see

ADC Modes of Operation

1. Writing a ‘1’ to the AD0BUSY bit of ADC0CN;

2. A Timer 3 overflow (i.e. timed continuous conversions);

3. A rising edge detected on the external ADC convert start signal, CNVSTR0;

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

1. Writing a ‘1’ to the AD1BUSY bit of ADC1CN;

2. A Timer 3 overflow (i.e. timed continuous conversions);

3. A rising edge detected on the external ADC convert start signal, CNVSTR1;

4. A Timer 2 overflow (i.e. timed continuous conversions);

5. Writing a ‘1’ to the AD0BUSY bit of ADC0CN.

Step 1. Write a ‘0’ to ADnINT;

Step 2. Write a ‘1’ to ADnBUSY;

Step 3. Poll ADnINT for ‘1’;

Step 4. Process ADCn data.

Section “5.3.3. Settling Time Requirements” on page

Rev. 1.2

56).

C8051F064-GQ Silicon Laboratories Inc, C8051F064-GQ Datasheet - Page 54

C8051F064-GQ

Specifications of C8051F064-GQ

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