C8051F930-TB Silicon Laboratories Inc, C8051F930-TB Datasheet - Page 202

C8051F930-TB

Manufacturer Part Number

C8051F930-TB

Description

BOARD TARGET/PROTO W/C8051F930

Manufacturer

Silicon Laboratories Inc

Type

MCUr

Datasheets

1.C8051F930DK.pdf (28 pages)

2.C8051F930DK.pdf (324 pages)

Specifications of C8051F930-TB

Contents

Board

Processor To Be Evaluated

C8051F930

Processor Series

C8051F9xx

Data Bus Width

8 bit

Interface Type

I2C, UART, SPI

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

0.9 V to 3.6 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

C8051F930

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1472

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Download datasheet (3Mb)

C8051F93x-C8051F92x

20.2. SmaRTClock Clocking Sources

The SmaRTClock peripheral is clocked from its own timebase, independent of the system clock. The

SmaRTClock timebase is derived from the SmaRTClock oscillator circuit, which has two modes of opera-

tion: Crystal Mode, and Self-Oscillate Mode. The oscillation frequency is 32.768 kHz in Crystal Mode and

can be programmed in the range of 10 kHz to 40 kHz in Self-Oscillate Mode. The frequency of the SmaRT-

Clock oscillator can be measured with respect to another oscillator using an on-chip timer. See Section

“25. Timers” on page 278 for more information on how this can be accomplished.

Note: The SmaRTClock timebase can be selected as the system clock and routed to a port pin. See Sec-

tion “19. Clocking Sources” on page 187 for information on selecting the system clock source and Section

“21. Port Input/Output” on page 212 for information on how to route the system clock to a port pin.

20.2.1. Using the SmaRTClock Oscillator with a Crystal or External CMOS Clock

When using crystal mode, a 32.768 kHz crystal should be connected between XTAL3 and XTAL4. No other

external components are required. The following steps show how to start the SmaRTClock crystal oscilla-

tor in software:

In crystal mode, the SmaRTClock oscillator may be driven by an external CMOS clock. The CMOS clock

should be applied to XTAL3. XTAL4 should be left floating. The input low voltage (VIL) and input high

voltage (VIH) for XTAL3 when used with an external CMOS clock are 0.1 and 0.8 V, respectively. The

SmaRTClock oscillator should be configured to its lowest bias setting with AGC disabled. The CLKVLD bit

is indeterminate when using a CMOS clock, however, the OSCFAIL bit may be checked 2 ms after

SmaRTClock oscillator is powered on to ensure that there is a valid clock on XTAL3.

20.2.2. Using the SmaRTClock Oscillator in Self-Oscillate Mode

When using Self-Oscillate Mode, the XTAL3 and XTAL4 pins should be shorted together. The RTC0PIN

SmaRTClock for use in Self-Oscillate Mode:

202

1. Set SmaRTClock to Crystal Mode (XMODE = 1).

2. Disable Automatic Gain Control (AGCEN) and enable Bias Doubling (BIASX2) for fast crystal

3. Set the desired loading capacitance (RTC0XCF).

4. Enable power to the SmaRTClock oscillator circuit (RTC0EN = 1).

5. Wait 20 ms.

6. Poll the SmaRTClock Clock Valid Bit (CLKVLD) until the crystal oscillator stabilizes.

7. Poll the SmaRTClock Load Capacitance Ready Bit (LOADRDY) until the load capacitance

8. Enable Automatic Gain Control (AGCEN) and disable Bias Doubling (BIASX2) for maximum

9. Enable the SmaRTClock missing clock detector.

10. Wait 2 ms.

11. Clear the PMU0CF wake-up source flags. 

1. Set SmaRTClock to Self-Oscillate Mode (XMODE = 0).

2. Set the desired oscillation frequency: 

3. The oscillator starts oscillating instantaneously.

4. Fine tune the oscillation frequency by adjusting the load capacitance (RTC0XCF).

startup.

reaches its programmed value.

power savings.

For oscillation at about 20 kHz, set BIASX2 = 0. 

For oscillation at about 40 kHz, set BIASX2 = 1.

Rev. 1.1

C8051F930-TB Silicon Laboratories Inc, C8051F930-TB Datasheet - Page 202

C8051F930-TB

Specifications of C8051F930-TB

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