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ISL1208IU8Z-TK Datasheet(PDF) 9 Page - Intersil Corporation |
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ISL1208IU8Z-TK Datasheet(HTML) 9 Page - Intersil Corporation |
9 / 21 page 9 FN8085.5 August 23, 2006 not begin incrementing until at least one byte is written to the clock register. Accuracy of the Real Time Clock The accuracy of the Real Time Clock depends on the frequency of the quartz crystal that is used as the time base for the RTC. Since the resonant frequency of a crystal is temperature dependent, the RTC performance will also be dependent upon temperature. The frequency deviation of the crystal is a function of the turnover temperature of the crystal from the crystal’s nominal frequency. For example, a ~20ppm frequency deviation translates into an accuracy of ~1 minute per month. These parameters are available from the crystal manufacturer. The ISL1208 provides on-chip crystal compensation networks to adjust load capacitance to tune oscillator frequency from -94ppm to +140ppm. For more detailed information see the Application Section. Single Event and Interrupt The alarm mode is enabled via the ALME bit. Choosing single event or interrupt alarm mode is selected via the IM bit. Note that when the frequency output function is enabled, the alarm function is disabled. The standard alarm allows for alarms of time, date, day of the week, month, and year. When a time alarm occurs in single event mode, an IRQ pin will be pulled low and the alarm status bit (ALM) will be set to “1”. The pulsed interrupt mode allows for repetitive or recurring alarm functionality. Hence, once the alarm is set, the device will continue to alarm for each occurring match of the alarm and present time. Thus, it will alarm as often as every minute (if only the nth second is set) or as infrequently as once a year (if at least the nth month is set). During pulsed interrupt mode, the IRQ pin will be pulled low for 250ms and the alarm status bit (ALM) will be set to “1”. NOTE: The ALM bit can be reset by the user or cleared automatically using the auto reset mode (see ARST bit). The alarm function can be enabled/disabled during battery backup mode using the FOBATB bit. For more information on the alarm, please see the Alarm Registers Description. Frequency Output Mode The ISL1208 has the option to provide a frequency output signal using the IRQ/FOUT pin. The frequency output mode is set by using the FO bits to select 15 possible output frequency values from 0 to 32kHz. The frequency output can be enabled/disabled during battery backup mode using the FOBATB bit. General Purpose User SRAM The ISL1208 provides 2 bytes of user SRAM. The SRAM will continue to operate in battery backup mode. However, it should be noted that the I2C bus is disabled in battery backup mode. I2C Serial Interface The ISL1208 has an I2C serial bus interface that provides access to the control and status registers and the user SRAM. The I2C serial interface is compatible with other industry I2C serial bus protocols using a bidirectional data signal (SDA) and a clock signal (SCL). Oscillator Compensation The ISL1208 provides the option of timing correction due to temperature variation of the crystal oscillator for either manufacturing calibration or active calibration. The total possible compensation is typically -94ppm to +140ppm. Two compensation mechanisms that are available are as follows: 1. An analog trimming (ATR) register that can be used to adjust individual on-chip digital capacitors for oscillator capacitance trimming. The individual digital capacitor is selectable from a range of 9pF to 40.5pF (based upon 32.758kHz). This translates to a calculated compensation of approximately -34ppm to +80ppm. (See ATR description.) 2. A digital trimming register (DTR) that can be used to adjust the timing counter by ±60ppm. (See DTR description.) Also provided is the ability to adjust the crystal capacitance when the ISL1208 switches from VDD to battery backup mode. (See Battery Mode ATR Selection for more details.) Register Descriptions The battery-backed registers are accessible following a slave byte of “1101111x” and reads or writes to addresses [00h:13h]. The defined addresses and default values are described in the Table 1. Address 09h is not used. Reads or writes to 09h will not affect operation of the device but should be avoided. REGISTER ACCESS The contents of the registers can be modified by performing a byte or a page write operation directly to any register address. The registers are divided into 4 sections. These are: 1. Real Time Clock (7 bytes): Address 00h to 06h. 2. Control and Status (5 bytes): Address 07h to 0Bh. 3. Alarm (6 bytes): Address 0Ch to 11h. 4. User SRAM (2 bytes): Address 12h to 13h. There are no addresses above 13h. ISL1208 |
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