Epson RTC-72423 A Clock User Manual


 
RTC - 72421 / 72423
Page - 17 MQ - 162 - 03
4. Using the CS
1
pin
The RTC-72421/RTC-72423 has 2 chip-select signal systems: CS
0
and CS1. Use CS
0
as chip-select for ordinary bus access.
CS
1
is not only used for CPU bus control, it also has the main function of switching between standby mode and operating mode.
(1) Functions
Providing the CS
1
pin with the rated voltage levels enables CS
1
to have the following functions:
Enabling interface with microprocessor during operation within the operating voltage range (5.0 V
±
0.5 V)
Reducing current consumption during standby (to prevent through currents caused by unstable inputs, which is inherent to
C-MOS devices)
Protecting internal data during standby
To ensure these functions, make sure that operation of the CS
1
pins observes that following conditions:
Make sure that the voltage input to the CS
1
pin during operation is at least 4/5 V
DD
.
Make sure that the voltage input to the CS
1
pin during standby is as close as possible to 0 V, to prevent through currents.
Make sure that the operation conforms to the timing chart below during a shift to standby mode or a return to operating
mode.
* Standby mode is a state in which a voltage lower than the RTC's rated range of operating supply voltage is applied (4.5 V
to 2.0 V). Under this condition, the timer continues to operate under battery back-up power, but the interface between the
interior and exterior of the RTC cannot be guaranteed.
(2) Timing
Data hold mode
V
IH2
(4/5 V
DD
)
V
IL2
(1/5 V
DD
)
t
CDR
2
µ
s
Min.
t
R
4 V4 V
Shift to standby mode Return to operation mode
Must be at least 2.0 V
Must be at no more than 1/5 V
DD
2
µ
s
Min.
Do not access the RTC while the voltage at CS1 is changing.
(3) Note
If the RTC is operated with timing conditions different from those shown above, data within the RTC could be overwritten
during a shift to standby mode or a return to operating mode. For example, if a write signal (WR) is generated during either of
the timing conditions (tCDR, tR) shown in the timing chart above, the data will be input before the RTC has stabilized. To
ensure that data is held throughout the entire standby process, make sure that the timing conditions shown in the chart are
followed.
Power supply circuit example
Voltage
detection
circuit
RTC
V
DD
CS1
GND
Ceramic capacitor of
0.01
µ
F to 0.1
µ
F
+5 V
Note1 Note2
+
Note 1:This capacitor must be of a high capacity because a transient reverse current flows from the collector to the emitter of the
transistor when the power is turned off.
Note 2:Use a chargeable or lithium battery. If a chargeable battery is used, there is no need for the diode. If a lithium battery is used,
the diode is necessary. For specific details of the resistance of the resistor, contact the manufacturer of the battery that is used.