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CY14B104M-ZSP45XIT Datasheet(PDF) 9 Page - Cypress Semiconductor |
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CY14B104M-ZSP45XIT Datasheet(HTML) 9 Page - Cypress Semiconductor |
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9 / 33 page  CY14B104K, CY14B104M Document #: 001-07103 Rev. *S Page 9 of 33 You can prevent the time out interrupt by setting WDS bit to ‘1’ prior to the counter reaching ‘0’. This causes the counter to reload with the watchdog time out value and to be restarted. As long as the user sets the WDS bit prior to the counter reaching the terminal value, the interrupt and WDT flag never occur. New time out values are written by setting the watchdog write bit to ‘0’. When the WDW is ‘0’, new writes to the watchdog time out value bits D5-D0 are enabled to modify the time out value. When WDW is ‘1’, writes to bits D5-D0 are ignored. The WDW function enables a user to set the WDS bit without concern that the watchdog timer value is modified. A logical diagram of the watchdog timer is shown in Figure 3. Note that setting the watchdog time out value to ‘0’ disables the watchdog function. The output of the watchdog timer is the flag bit WDF that is set if the watchdog is allowed to time out. If the watchdog interrupt enable (WIE) bit in the interrupt register is set, a hardware interrupt on INT pin is also generated on watchdog timeout. The flag and the hardware interrupt are both cleared when user reads the flags registers. Figure 3. Watchdog Timer Block Diagram . Power Monitor The CY14B104K provides a power management scheme with power fail interrupt capability. It also controls the internal switch to backup power for the clock and protects the memory from low VCC access. The power monitor is based on an internal band gap reference circuit that compares the VCC voltage to VSWITCH threshold. As described in the section AutoStore Operation on page 4, when VSWITCH is reached as VCC decays from power loss, a data STORE operation is initiated from SRAM to the nonvolatile elements, securing the last SRAM data state. Power is also switched from VCC to the backup supply (battery or capacitor) to operate the RTC oscillator. When operating from the backup source, read and write opera- tions to nvSRAM are inhibited and the RTC functions are not available to the user. The RTC clock continues to operate in the background. The updated RTC time keeping registers data are available to the user after VCC is restored to the device (see AutoStore/Power-Up RECALL on page 22). Interrupts The CY14B104K has flags register, interrupt register, and interrupt logic that can signal interrupt to the microcontroller. There are three potential sources for interrupt: watchdog timer, power monitor, and alarm timer. Each of these can be individually enabled to drive the INT pin by appropriate setting in the Interrupt register (0x7FFF6). In addition, each has an associated flag bit in the flags register (0x7FFF0) that the host processor uses to determine the cause of the interrupt. The INT pin driver has two bits that specify its behavior when an interrupt occurs. An interrupt is raised only if both a flag is raised by one of the three sources and the respective interrupt enable bit in interrupts register is enabled (set to ‘1’). After an interrupt source is active, two programmable bits, H/L and P/L, determine the behavior of the output pin driver on INT pin. These two bits are located in the interrupt register and can be used to drive level or pulse mode output from the INT pin. In pulse mode, the pulse width is internally fixed at approximately 200 ms. This mode is intended to reset a host microcontroller. In the level mode, the pin goes to its active polarity until the flags register is read by the user. This mode is used as an interrupt to a host microcontroller. The control bits are summarized in the following section. Interrupts are only generated while working on normal power and are not triggered when system is running in backup power mode. Note CY14B104K generates valid interrupts only after the Power-up RECALL sequence is completed. All events on INT pin must be ignored for tHRECALL duration after powerup. Interrupt Register Watchdog Interrupt Enable(WIE): When set to ‘1’, the watchdog timer drives the INT pin and an internal flag when a watchdog time out occurs. When WIE is set to ‘0’, the watchdog timer only affects the WDF flag in flags register. Alarm Interrupt Enable (AIE): When set to ‘1’, the alarm match drives the INT pin and an internal flag. When AIE is set to ‘0’, the alarm match only affects the AF flag in flags register. Power Fail Interrupt Enable (PFE): When set to ‘1’, the power fail monitor drives the pin and an internal flag. When PFE is set to ‘0’, the power fail monitor only affects the PF flag in flags register. High/Low (H/L): When set to a ‘1’, the INT pin is active HIGH and the driver mode is push pull. The INT pin drives HIGH only when VCC is greater than VSWITCH. When set to a ‘0’, the INT pin is active LOW and the drive mode is open drain. The INT pin must be pulled up to Vcc by a 10 k resistor while using the interrupt in active LOW mode. Pulse/Level (P/L): When set to a ‘1’ and an interrupt occurs, the INT pin is driven for approximately 200 ms. When P/L is set to a ‘0’, the INT pin is driven HIGH or LOW (determined by H/L) until the flags register is read. When an enabled interrupt source activates the INT pin, an external host reads the flags registers to determine the cause. Remember that all flags are cleared when the register is read. If the INT pin is programmed for Level mode, then the condition clears and the INT pin returns to its inactive state. If the pin is programmed for pulse mode, then reading the flag also clears the flag and the pin. The pulse does not complete its specified duration if the flags register is read. If the INT pin is used as a host reset, the flags register is not read during a reset. 1 Hz Oscillator Clock Divider Counter Zero Compare WDF WDS Load Register WDW D Q Q Watchdog Register write to Watchdog Register 32 Hz 32,768 KHz [+] Feedback [+] Feedback |
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