Intel 80C196NU 사용자 설명서
8XC196NP, 80C196NU USER’S MANUAL
2-12
Timer 1 and timer 2 are both 16-bit up/down timer/counters that can be clocked internally or ex-
ternally. Each timer/counter is called a timer if it is clocked internally and a counter if it is clocked
externally. See Chapter 10, “Event Processor Array (EPA),” for additional information on the
EPA and timer/counters.
ternally. Each timer/counter is called a timer if it is clocked internally and a counter if it is clocked
externally. See Chapter 10, “Event Processor Array (EPA),” for additional information on the
EPA and timer/counters.
2.5.4
Pulse-width Modulator (PWM)
The output waveform from each PWM channel is a variable duty-cycle pulse with a programma-
ble frequency that occurs every 256 or 512 state times (for the 8XC196NP) or every 256, 512, or
1024 state times (for the 80C196NU), as programmed. Several types of motors require a PWM
waveform for most efficient operation. When filtered, the PWM waveform produces a DC level
that can change in 256 steps by varying the duty cycle. See Chapter 9, “Pulse-width Modulator,”
for more information.
ble frequency that occurs every 256 or 512 state times (for the 8XC196NP) or every 256, 512, or
1024 state times (for the 80C196NU), as programmed. Several types of motors require a PWM
waveform for most efficient operation. When filtered, the PWM waveform produces a DC level
that can change in 256 steps by varying the duty cycle. See Chapter 9, “Pulse-width Modulator,”
for more information.
2.6
SPECIAL OPERATING MODES
In addition to the normal execution mode, the device operates in several special-purpose modes.
Idle and powerdown modes conserve power when the device is inactive. An additional power
conservation mode, standby, is available on the 80C196NU. On-circuit emulation (ONCE) mode
electrically isolates the microcontroller from the system. See Chapter 12, “Special Operating
Modes,” for more information about idle, powerdown, standby, and ONCE modes.
Idle and powerdown modes conserve power when the device is inactive. An additional power
conservation mode, standby, is available on the 80C196NU. On-circuit emulation (ONCE) mode
electrically isolates the microcontroller from the system. See Chapter 12, “Special Operating
Modes,” for more information about idle, powerdown, standby, and ONCE modes.
2.6.1
Reducing Power Consumption
The power saving modes selectively disable internal clocks to reduce power consumption. Figure
2-3 on page 2-7 and Figure 2-4 on page 2-8 illustrate the clock circuitry of the 8XC196NP and
80C196NU, respectively.
2-3 on page 2-7 and Figure 2-4 on page 2-8 illustrate the clock circuitry of the 8XC196NP and
80C196NU, respectively.
In idle mode, the CPU stops executing instructions, but the peripheral clocks remain active. Pow-
er consumption drops to about 40% of normal execution mode consumption. Either a hardware
reset or any enabled interrupt source will bring the device out of idle mode.
er consumption drops to about 40% of normal execution mode consumption. Either a hardware
reset or any enabled interrupt source will bring the device out of idle mode.
The 80C196NU has an additional power saving mode, standby. In standby mode, all internal
clocks are frozen at logic state zero, but the oscillator and phase-locked loop continue to run.
Power consumption drops to about 10% of normal execution mode consumption. Either a hard-
ware reset or any enabled external interrupt source will bring the device out of standby mode.
clocks are frozen at logic state zero, but the oscillator and phase-locked loop continue to run.
Power consumption drops to about 10% of normal execution mode consumption. Either a hard-
ware reset or any enabled external interrupt source will bring the device out of standby mode.
In powerdown mode, all internal clocks are frozen at logic state zero and the oscillator is shut off.
The register file and most peripherals retain their data if V
The register file and most peripherals retain their data if V
CC
is maintained. Power consumption
drops into the µW range.