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PIC18F2525 Datasheet(PDF) 33 Page - Microchip Technology |
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PIC18F2525 Datasheet(HTML) 33 Page - Microchip Technology |
33 / 390 page 2004 Microchip Technology Inc. Preliminary DS39626B-page 31 PIC18F2525/2620/4525/4620 2.8 Effects of Power Managed Modes on the Various Clock Sources When PRI_IDLE mode is selected, the designated primary oscillator continues to run without interruption. For all other power managed modes, the oscillator using the OSC1 pin is disabled. The OSC1 pin (and OSC2 pin, if used by the oscillator) will stop oscillating. In secondary clock modes (SEC_RUN and SEC_IDLE), the Timer1 oscillator is operating and providing the device clock. The Timer1 oscillator may also run in all power managed modes if required to clock Timer1 or Timer3. In internal oscillator modes (RC_RUN and RC_IDLE), the internal oscillator block provides the device clock source. The 31 kHz INTRC output can be used directly to provide the clock and may be enabled to support various special features, regardless of the power managed mode (see Section 23.2 “Watchdog Timer (WDT)”, Section 23.3 “Two-Speed Start-up” and Section 23.4 “Fail-Safe Clock Monitor” for more information on WDT, Fail-Safe Clock Monitor and Two- Speed Start-up). The INTOSC output at 8 MHz may be used directly to clock the device or may be divided down by the postscaler. The INTOSC output is disabled if the clock is provided directly from the INTRC output. If the Sleep mode is selected, all clock sources are stopped. Since all the transistor switching currents have been stopped, Sleep mode achieves the lowest current consumption of the device (only leakage currents). Enabling any on-chip feature that will operate during Sleep will increase the current consumed during Sleep. The INTRC is required to support WDT operation. The Timer1 oscillator may be operating to support a real- time clock. Other features may be operating that do not require a device clock source (i.e., SSP slave, PSP, INTn pins and others). Peripherals that may add significant current consumption are listed in Section 26.2 “DC Characteristics”. 2.9 Power-up Delays Power-up delays are controlled by two timers, so that no external Reset circuitry is required for most applications. The delays ensure that the device is kept in Reset until the device power supply is stable under normal circum- stances and the primary clock is operating and stable. For additional information on power-up delays, see Section 4.5 “Device Reset Timers”. The first timer is the Power-up Timer (PWRT), which provides a fixed delay on power-up (parameter 33, Table 26-10). It is enabled by clearing (= 0) the PWRTEN configuration bit. The second timer is the Oscillator Start-up Timer (OST), intended to keep the chip in Reset until the crystal oscillator is stable (LP, XT and HS modes). The OST does this by counting 1024 oscillator cycles before allowing the oscillator to clock the device. When the HSPLL Oscillator mode is selected, the device is kept in Reset for an additional 2 ms, following the HS mode OST delay, so the PLL can lock to the incoming clock frequency. There is a delay of interval TCSD (parameter 38, Table 26-10), following POR, while the controller becomes ready to execute instructions. This delay runs concurrently with any other delays. This may be the only delay that occurs when any of the EC, RC or INTIO modes are used as the primary clock source. TABLE 2-3: OSC1 AND OSC2 PIN STATES IN SLEEP MODE OSC Mode OSC1 Pin OSC2 Pin RC, INTIO1 Floating, external resistor should pull high At logic low (clock/4 output) RCIO Floating, external resistor should pull high Configured as PORTA, bit 6 INTIO2 Configured as PORTA, bit 7 Configured as PORTA, bit 6 ECIO Floating, pulled by external clock Configured as PORTA, bit 6 EC Floating, pulled by external clock At logic low (clock/4 output) LP, XT and HS Feedback inverter disabled at quiescent voltage level Feedback inverter disabled at quiescent voltage level Note: See Table 4-2 in Section 4.0 “Reset” for time-outs due to Sleep and MCLR Reset. |
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