AN-1006 [CYMBET]
Backing Up Epson Toyocom Real-Time Clock Chips; 备份爱普生拓优科梦实时时钟芯片型号: | AN-1006 |
厂家: | CYMBET CORPORATION |
描述: | Backing Up Epson Toyocom Real-Time Clock Chips |
文件: | 总3页 (文件大小:540K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
AN-1006
Application Note
Backing Up Epson Toyocom Real-Time Clock Chips
A Demonstration Tool for Cymbet™ EnerChip™
Solid State Thin Film Rechargeable Batteries
is fully charged. At full charge, the current is in the sub-nanoamps. A
simple but effective technique prevents the battery from discharging
through the charging circuit or the power supply during primary
power outages.
The Cypress USB-to-I2C converter board was chosen to provide a
cost effective way of programming the Epson RTC-8564 JE real time
clock chip and to use the display and operating system of a notebook
computer to provide a graphical user interface (GUI). The board also
provides a convenient way to power the clock chip and charge the
Cymbet solid state battery.
To charge the battery, operate the system with the Demo Board
connected for at least 30 minutes. The battery will be charged to 80%
within 30 minutes and to 100% after 45 minutes. Please see AN-1003
for details on battery charging times.
Figure 1. Cymbet Demo Kit for Epson Toyocom RTC chips.
System Operation
Introduction
Overview
Cymbet™ EnerChip™ solid state, thin film batteries are ideal
The demo system utilizes a Microsoft Windows™ based computer
as rechargeable backup power sources for real-time clock
with a USB interface. Upon connection, the RTC Demo Board will
(RTC) chips, memories, microcontrollers and other low-power
have its time set or read via the computer. The Board will then be
circuits where data or timing information must be retained in
disconnected from the USB-to-I2C converter, and the GUI will blank
the absence of primary power. They come in standard
the time display digits. When the Demo Board is again connected to
integrated circuit packages and can be reflow soldered for high
USB-to-I2C converter, the correct updated time will be shown by the
volume PCB assembly.
GUI since the RTC module has been powered by the Cymbet battery.
This application note describes a test/demo kit and test proce-
Installing the Software
dures which allows a user to evaluate Cymbet batteries as a
backup for Epson Toyocom RTC chips. This system consists
of the following items:
Open the .zip file and copy the contents into a directory on your
computer. The files should include PSoCfirstTouchUSBNetLib.dll,
RTCDemo.exe and logo1.bmp. The software will not work if installed
on a network drive. To start the GUI, click on the RTCDemo icon. If
there is a warning, go to the Microsoft website, download the .net
Framework update, and install
1. Cymbet Epson RTC Demo Board (upper right in Figure
1). Includes a Cymbet CBC050 50-µAh battery, a Cymbet
CBC012 12-µAh battery, the same battery charging circuit
as Cymbet’s EVAL-01 board, and an Epson Toyocom
RTC-8564 JE real-time clock chip.
http://www.microsoft.com/downloads/Search.aspx?displaylang=en
Running the System
2. CD ROM with Cymbet software.
3. Cypress Semiconductor USB-to-I2C Bridge Kit, CY3240-
I2USB. Includes a USB-to-I2C converter board (upper left
in Figure 1) and a USB cable. Cypress kit or equivalent to
be furnished by user.
Caution: to minimize the possibility of damaging the demo system,
make sure power is off whenever separating or mating the Demo
Board with the USB-to-I2C converter. Do this by turning off the RTC
power button in the GUI, or disconnect the USB connector at the
personal computer or USB-to-I2C converter board.
The Cymbet Epson RTC Demo Board uses the Cymbet
EVAL-01 circuit to charge an on-board Cymbet battery at a
constant voltage. Please see AN-1003 for details. As the
battery is charging, the charging current drops until the battery
© Cymbet Corporation • 18326 Joplin Street, Elk River, MN 55330 • 763-633-1780 • www.cymbet.com
DOC-111006 RevA
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AN-1006: Backing Up Epson Real-Time Clock Chips
GUI Description
6) Turn off RTC Power and separate the Cymbet Demo Board
from the USB-to-I2C converter board.
The graphical user interface (GUI) is shown in Figure 2. The
GUI has fields to display hours, minutes and seconds, status of
the low voltage indicator of the Epson RTC module, and status
of the USB link. The GUI also provides fields to turn power on
and off to the Demo Board and to set the time.
7) Verify that RTC power is off, as indicated by the GUI, then
connect the Demo Board to the USB-to-I2C converter.
8) Turn on the RTC Power button in the GUI and note that the
correct indicated time is still being displayed.
9) If the EnerChip cell is depleted, the VL indicator (voltage low)
will be displayed in the GUI. In this case, then the operation of
the Epson RTC module is in an unknown state and indications
are not valid. To clear the VL indicator, set a new time. The
VL indicator can be forced to activate by pulling the BAT
ENB shunt jumper J3 (see Figure 3) from the backside of the
Demo Board and then turning off the RTC Power button.
Performance
The Epson RTC-8564 JE real time clock module has a typical
current draw of 310 nA at 4V. As shown in Figure 4, it will
run continuously 42 hours when powered by a 12 µAh Cymbet
thin film battery and for 7 days when powered by 50 µAh
battery.
Figure 2. Graphical User Interface (GUI).
Normal operation
5
4
3
2
1) Connect shunt jumper J3 to the two pins on the bottom of the
Cymbet Epson RTC demo board. This jumper enables the
Cymbet cell to provide backup power to the Epson RTC-8564
JE real time clock module.
I2 µAh
50 µAh
1
0
Figure 3. Connection of Cypress and Cymbet boards.
0
1
2
3
4
5
6
7
8
Days
2) Connect the Cypress USB-to-I2C converter to the Cymbet
Demo Board as shown in Figure 3.
3) Connect the USB cable between the PC and USB-to-I2C
Figure 4. Battery voltage applied to RTC.
converter board.
4) Power up the computer if not already done and open the GUI
by clicking on the RTCdemo icon.
5) Verify that USB status is connected. Set RTC power to on. Set
appropriate time if needed. Note: when the GUI is first run it
will pick up the system time and put it into the set time field at
the bottom of the GUI. If it will be a more than a few minutes
before the time will be set into the Epson RTC-8564 JE real
time clock module it may be faster to restart the GUI instead
of using the up and down arrows to set the time in the set time
field.
© Cymbet Corporation • 18326 Joplin Street, Elk River, MN 55330 • 763-633-1780 • www.cymbet.com
DOC-111006 RevA
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AN-1006: Backing Up Epson Real-Time Clock Chips
R9 470
R1
200K
R2
200K
R3
200K
D4
SML-LX0603IW-TR
J1
U3
1
2
3
4
5
10
6
5
INT
CLKOUT
4
SCL
SDA
CLKOE
VDD
C1
7
8
(GND)
0.1uF
3
9
GND
I2C
RTC-8564 JE
R4
6.8K
R6
10K
MMBT5087LT1G
Q3
1
R5
1K
R8 47K
1
6
4
3
Q1-1
Q1-2
FDG6301N FDG6301N
6
1
3
4
4.1V
Q2-1
FDG6304P
Q2-2
FDG6304P
J3
BAT ENB
R7
200K
D2
ZR40401F41TA
BT1
BT2
CBC050
CBC012
Figure 3. Schematic, Cymbet Epson RTC Demo Board.
Note: Cypress is a Registered Trademark of Cypress Corporation. All other referenced terms or product names are the property of their
respective owners.
© Cymbet Corporation • 18326 Joplin Street, Elk River, MN 55330 • 763-633-1780 • www.cymbet.com
DOC-111006 RevA
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