C8051F005DK Silicon Laboratories Inc, C8051F005DK Datasheet - Page 96

C8051F005DK

Manufacturer Part Number

C8051F005DK

Description

DEV KIT FOR F005/006/007

Manufacturer

Silicon Laboratories Inc

Type

MCUr

Datasheet

1.C8051F005-TB.pdf (171 pages)

Specifications of C8051F005DK

Contents

Evaluation Board, Power Supply, USB Cables, Adapter and Documentation

Processor To Be Evaluated

C8051F01x

Interface Type

USB

Silicon Manufacturer

Silicon Labs

Core Architecture

8051

Silicon Core Number

C8051F005

Silicon Family Name

C8051F00x

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

Silicon Laboratories C8051 F005/006/007

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1188

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13.8.1. Watchdog Usage

The WDT consists of a 21-bit timer running from the programmed system clock. The timer measures the period

between specific writes to its control register. If this period exceeds the programmed limit, a WDT reset is

generated. The WDT can be enabled and disabled as needed in software, or can be permanently enabled if desired.

Watchdog features are controlled via the Watchdog Timer Control Register (WDTCN) shown in Figure 13.3.

Enable/Reset WDT

The watchdog timer is both enabled and the countdown restarted by writing 0xA5 to the WDTCN register. The

user’s application software should include periodic writes of 0xA5 to WDTCN as needed to prevent a watchdog

timer overflow. The WDT is enabled and restarted as a result of any system reset.

Disable WDT

Writing 0xDE followed by 0xAD to the WDTCN register disables the WDT. The following code segment

illustrates disabling the WDT.

The writes of 0xDE and 0xAD must occur within 4 clock cycles of each other, or the disable operation is ignored.

Interrupts should be disabled during this procedure to avoid delay between the two writes.

Disable WDT Lockout

Writing 0xFF to WDTCN locks out the disable feature. Once locked out, the disable operation is ignored until the

next system reset. Writing 0xFF does not enable or reset the watchdog timer. Applications always intending to use

the watchdog should write 0xFF to WDTCN in their initialization code.

Setting WDT Interval

WDTCN.[2:0] control the watchdog timeout interval. The interval is given by the following equation:

For a 2MHz system clock, this provides an interval range of 0.032msec to 524msec. WDTCN.7 must be a 0 when

setting this interval. Reading WDTCN returns the programmed interval. WDTCN.[2:0] is 111b after a system

reset.

Bits7-0: WDT Control

Bit4:

Bits2-0: Watchdog Timeout Interval Bits

R/W

Bit7

CLR

MOV

SETB

3+WDTCN[2:0]

Writing 0xA5 both enables and reloads the WDT.

Writing 0xDE followed within 4 clocks by 0xAD disables the WDT.

Writing 0xFF locks out the disable feature.

Watchdog Status Bit (when Read)

Reading the WDTCN.[4] bit indicates the Watchdog Timer Status.

0: WDT is inactive

1: WDT is active

The WDTCN.[2:0] bits set the Watchdog Timeout Interval. When writing these bits,

WDTCN.7 must be set to 0.

WDTCN,#0DEh ; disable software

WDTCN,#0ADh ; watchdog timer

R/W

Bit6

Figure 13.3. WDTCN: Watchdog Timer Control Register

x T

SYSCLK

R/W

, (where T

Bit5

; disable all interrupts

; re-enable interrupts

SYSCLK

R/W

Bit4

is the system clock period).

Rev. 1.7

R/W

Bit3

R/W

Bit2

C8051F000/1/2/5/6/7

C8051F010/1/2/5/6/7

R/W

Bit1

R/W

Bit0

SFR Address:

Reset Value

xxxxx111

0xFF

C8051F005DK Silicon Laboratories Inc, C8051F005DK Datasheet - Page 96

C8051F005DK

Specifications of C8051F005DK

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