TAKAYA TX69W01 User Manual Manual

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Document ID	30327
Application ID	pcTeVBnzLp4+2itV+l8y7A==
Document Description	Manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	18.22kB (227745 bits)
Date Submitted	1999-04-01 00:00:00
Date Available	1999-05-11 00:00:00
Creation Date	2001-06-29 16:14:10
Producing Software	Acrobat Distiller 4.0 for Windows
Document Lastmod	2001-06-29 16:14:11
Document Title	Manual

OPERATION
MANUAL
New Wetness Sensing System RX69W1
For monitoring purpose in USA
By Nippon Kodoshi Corporation
September 4,1998
RX-W1 Page 1
Table of Contents
DESCRIPTION
OverView
Specifications
Location and Function of Controls
Transmitter
Introduction
Sensor Introduction
Transmitter and Sensor Operating
Sensor Installation to a disposal diaper
Transponder Introduction
Receiver Introduction
Receiver Operating
10
11
13
Inside Views, Dip-SW Setting
Transmitter Inside View
Transmitter Dip-SW Setting
Transponder Inside View
Transponder Dip-SW Setting
Receiver Inside View
Receiver Test Mode 1
Receiver Test Mode 2 (Melody)
Pager Controller Protocol
lone
ode
Transmitter Clone Mode
Transponder Clone Mode
Receiver Clone Mode
14
14
15
16
17
19
20
23
24
26
26
31
33
RX-W1 Page 2
FCC PART 15 CLASS B MANUAL
DESCRIPTION
NOTICE
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation.
This equipment generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction, may cause harmful interference to
radio communications. However, there is no guarantee that interference will not occur
in a particular installation. If this equipment does cause harmful interference to radio
or television reception, which can be determined by turning the equipment off and on,
the user is encouraged to try to correct the interference by one or more of the following
measures:
-Reorient or relocate the receiving antenna
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help.
FCC WARNING
Changes or modifications not expressly approved by the party responsible for compliance
could void the user’s authority to operate the equipment.
RX-W1 Page 3
[1] Wetness Sensing System
(1) Overview
Transponder
’†Œp‹@
Transmitter
‘— M
‹@
΁
’èŒ^Žó M
‹@
Station-receiver
(option)
‹ Žº
—¾•ê Žº
Œg‘ÑŒ^•\ Ž¦‹@
Handy-receiver
This Wetness Sensing System is comprised with transmitters, transponders
and receivers, which inform caregivers of sensing moisture in a diaper. Once
wetness sensor incorporated into diaper is aware of moisture, the transmitter
including sensor puts out the signal to the transponder and then to the receiver.
RX-W1 Page 4
Specifications
■ TRANSMITTER
Frequency
RF Output Power
Frequency stability
Identification
Modulation system
Maximum Deviation
Power Source
Battery Life
318.125M, 318.500M, 318.875M, 319.250MHz
2400µV/m (67.6dBm) at 3 m
±0.001
Area ID1 99, Individual ID 1 99
Variable reactance frequency modulation
±4 kHz
3V (lithium battery CR2032)
about 3 months ( dropped to 2.5V)
■ TRANSPONDER
Receive system
Receiving Frequency 1
Receiving Frequency 2
Sensitivity
Intermediate frequencies
Transmitting Frequency
RF output power
Frequency stability
Modulation system
Maximum Deviation
Power supply requirement
Battery Life
Double-conversion superheterodyne
318.125M, 318.500M, 318.875M, 319.250MHz
314.500M~314.725MHz(25kHz step)
-113dBm for 12dB SINAD
1st 21.7MHz
2nd 450kHz
314.500M~314.725MHz(25kHz step)
2250µV/m ( at 3 m )
±0.001
Variable reactance frequency modulation
±4 kHz
DC,AC9V 0.1A AC adaptor
about 12 hours
■ RECEIVER
Receive system
Receiving Frequency 1
Receiving Frequency 2
Sensitivity
Intermediate frequencies
Frequency stability
Power supply requirement
Battery Life
Double-conversion superheterodyne
318.125M, 318.500M, 318.875M, 319.250MHz
314.500M~314.725MHz(25kHz step)
-113dBm for 12dB SINAD
1st 21.7MHz
2nd 450kHz
±0.001
DC,AC9V 0.3A AC adaptor
about 5 hours
RX-W1 Page 5
Location and Function of Controls
Transmitter Introduction
(1) overview
Sensing devise (sensor) is connected to transmitter. Once sensing devise senses moisture,
transmitter will send signal to transponder.
( )Each Designation
Indicator Light
Blue light flash in sensing wet.
Red light flash in battery shutoff
Slid Tab
Rock in upper
Open in down
Battery Holder
Cloning Terminal
Use in Transmitter
setting.
Sensor Terminal
RX-W1 Page 6
Sensor Introduction
Sensor
Always I love
ai
Sensor
Electrode
Moisture sensing part
Attach to a disposal diaper
with double-adhesive tape
RX-W1 Page 7
Transmitter and Sensor Operating
Open-Close Operation
To open this case, release the lock
by sliding this tab underneath.
To lock the case is sliding this tab
upward in closed status.
Method of Battery desorption and Sensor Attachment
Battery desorption
Installation
Cant the battery slowly.
Disinstallation
Push the battery upward.
Sensor Installation
Put the Sensor into the
connector deeply and embed
in guide pin from above to
prevent to drop out.
RX-W1 Page 8
Sensor Installation to Disposal Diaper
The double-adhesive tape is
attached to this side. Note
that attaching the tape to
wrong side will be cause
malfunction.
ai
Attach the sensor to prospected part for
wetting in a disposal diaper.
NOTE: Attaching firmly with no space
between the sensor and a diaper.
If there is a distance, the sensor may not
sense moisture in a disposal diaper.
After attach the sensor, put the cover on a diaper and then fix the
RX-W1 Page 9
transmitter.
Transponder Introduction
Overview
Transponder receives signal from Transmitter and then transmits to Receiver.
It transmits the signal received from Transmitter to another Transponder.
Each Designation
CODE ALERT
Power-on Switch
Wetness Sensing System
NKK
TX
Indicator light
for transmitting
Flash when transmitting.
RX
Indicator
receiving
Power
light
for
Power Supply
Terminal
BT
Directions
Indicator
Shutoff
light
for
Battery
The transponder is located in the signal receivable area from Transmitter.
RX-W1 Page 10
Receiver Introduction
1.
Overview
When the receiver receives signal from the transponder, it informs caregivers
of received signal information (e.g. sense moisture or battery shutoff) by alarm
of melodies and display.
Each
Designation
Receiving Antenna
CODE ALERT
Indicator Light for receiving
Flash when receiving
TRANSMITTER ID
Power
RX
COM
VOLUME
Volume Control Tab
LOW BATTERY
TX BATTERY
OFF
Flash when transfer to PC
Indicator light for Battery
Shutoff
BT CLEAR
Flash in Battery shutoff
Wetness Sensing System
NKK
ID Reset button for Transmitter
Battery Shutoff
Warning LED for Transmitter Battery Shutoff.
Acknowledge button for Transmitter
Battery Shutoff
Pager Controller &
Cloning Terminal
External Terminal
for Power Supply
Power-on
RX-W1 Page 11
a.
1 Display Receiver Battery Shutoff
When the battery of receiver run down, LED will flash.
Information Display
TRANSMITTER ID
Power
RX
COM
TX BATTERY
BT CLEAR
LOW BATTERY
Indicator light for
Shutoff
Flash in Battery shutoff
Battery
When receiving the signal of sensing moisture in a diaper, it
displays Area ID in right two-digit and transmitter ID in left
two-digit. (NOTE: In case of sensing multiple IDs, it displays
those IDs in turn.)
(Example of Display 1)
Transmitter ID
5 in Area 1 is
Example of Display 2
When flashing “Warning LED for Battery Shutoff”, push “Acknowledge
is displayed.
button for Transmitter Battery Shutoff”,
Transmitter ID 2
in Area 1 runs
TX BATTERY
RX-W1 Page 12
7 Receiver Operation
Turning on power, current receiving channel for the transmitter is displayed in 7
segment Display with red LED and current receiving channel for the transponder in 7
for 5sec, after that it will clear the
segment display with green LED, like
ID.
When the transmitter senses moisture in a diaper, the receiver displays Area ID and
Transmitter ID and puts melodies on.
Once Transmitter IDs are received, it continues displaying these IDs till the signal
from the transmitter is cut off for 30sec. Those IDs will be cleared automatically
when the signal is aborted (i.e. it displays those IDs till the diaper attached the
sensor is changed.).
Volume Control SW
It changes Volume of melodies as four stage (large, middle, small and OFF).
TX BATTERY SW
LED
Square red LED flashes in Transmitter Battery Shutoff.
Transmitter ID which runs out is displayed during pushing this SW. (In case of
detecting multiple IDs, it displays those IDs in turn.)
BT CLEAR SW
Battery Shutoff LED will be lighted out and its IDs will be cleared after checking
which ID is detected by pushing TX Battery SW and changing the battery.
NOTE: Be sure to clear detected IDs after changing the battery
Power Supply
AC adapter more than 0.3A, 9V(DC, AC) is available.
In electricity failure, this system can work about for 5 hours by using built-in
rechargeable battery.
RX-W1 Page 13
3 Inside Views, Dip-SW Setting
Transmitter Inside View
Battery
Holder
Battery
CR2032
CT1
Frequency
ADJUST
SW1
MODE
Select
VR1
RF Power
ADJUST
LED
CT3
SENSOR Sensitivity
ADJUST
CN2
CLONING
Port
CN1
SENSOR
Connect
CT2
ANT Matching
ADJUST
Fig.3-1 TRANSMITTER
RX-W1 Page 14
Transmitter Dip-SW Setting
Capacitor
Selection
Sensor Type Selection
ON
SW1 MODE SELECT
Sensitivity
ON=TEST MODE
TEST MODE SELECTION
SW1-1
SW1-1 is ON when turning on power, it will enter into Test Mode.
It will be transfered data continuously in the Test Mode. To stop the continuous
transfer is turning SW1-1 off in Test Mode.
Turning on power again with SW1-1 OF enters into Normal Mode.
SENSOR TYPE SELECTION SW1-2
SW1-2
SENSOR TYPE
OFF
Capacitor type Sensor
ON
Resistor type Sensor
Capacitor Sensitivity Selection SW1-3,4
SW1-3
SW1-4
OFF
OFF
Maximum Sensitivity about 3.5pF
ON
OFF
Middle Sensitivity about 4.5pF
OFF
ON
Lower Sensitivity about
ON
ON
Minimum Sensitivity about 6.5pF
Capacitor Sensitivity
5.5pF
RX-W1 Page 15
Transponder Inside View
SW1
Power SW
Transponder ANT
F1
Fuse 1A
CN2
Cloning
Port
CN1
EXT Power
Supply
Input 9V
SW2
Receiving
Channel
SW1
Transponder
Channel
SW3-4
Test Mode
CN3
Battery
Connect
SW3-1 3
Transponder ID
Select
Fig.3-2 TRANPONDER
RX-W1 Page 16
Transponder Dip-SW Setting
SW
MODE SELECT
ON
ON=TEST MODE
Transponder ID
Selection
TEST MODE SELECT
SW3-4
SW1-1 is ON when turning on power, it will enter into Test Mode.
Data will be received continuously in the Test Mode. When SW3-1 is OFF, it
receives data at Transmitter receiving frequency. When SW3-1 is ON, it
receives data at Transponder receiving frequency. In that case, if RSSI is ON
green LED will be flashed, if N-DET is ON red LED will be flashed.
In Test Mode, changing SW3-4 into OFF will be in Transfer Mode. At that time,
ID
if SW3-1 is OFF it transfers only carrier wave, if ON it transfers
continuously.
Restart with SW3-4 OFF, it returns to normal mode.
Transponder ID Selection
SW3-1 3
SW3-1
SW3-2
SW3-3
ID
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
ON
ON
OFF
OFF
OFF
ON
ON
OFF
ON
OFF
ON
ON
ON
ON
ON
NOTE: In case of connecting multiple transponders, be sure not to set same Transponder IDs.
RX-W1 Page 17
Receiving Channel Selection SW2
Receiving channel means receiving frequency when receiving the signal from
Transmitter.
no
SW2
Receiving CH
Receiving Frequency
1 CH
2 CH
318.125MHz
318.500MHz
3 CH
4 CH
318.875MHz
319.250MHz
NOTE: It is impossible to receive the signal if the transmission wave has
accordance with receiving wave.
Transponder Channel Selection SW1
Transponder Channel means identical frequency
Transponders transfers and receives mutually.
SW1
Transponder CH
1 CH
2 CH
3 CH
4 CH
5 CH
6 CH
7 CH
8 CH
9 CH
10 CH
at
which
multiple
Transponder Frequency
314.500MHz
314.525MHz
314.550MHz
314.575MHz
314.600MHz
314.625MHz
314.650MHz
314.675MHz
314.700MHz
314.725MHz
RX-W1 Page 18
Receiver Inside View
Receiver ANT
CN1
EXT Power
Supply
Input 9V
CN2
Cloning
Port
SW2
Power SW
F1
Fuse 1A
CN3
Battery
Connect
Battery
4.8V
CN6
To Display
Connect
SW3
Receiving Channel
Select
SW1
Pager Controller Set
TRANSMITTER ID
Power
RX
COM
LOW BATTERY
TX BATTERY
BT CLEAR
BT CLEAR SW
ID Reset button for Transmitter
Battery Shutoff
TX BATTERY SW
Warning LED for Transmitter Battery Shutoff.
Acknowledge button for Transmitter Battery
Shutoff
RX-W1 Page 19
Receiver Test Mode 1
TEST MODE
SELECT
When Power SW is ON in pushing BT CLEAR SW on Front Panel, it will be
Test MODE 1.
First, when BT CLEAR SW is pushing
is displayed in 7segment LED
for 1sec and then the LED of RX, COM and TX BATTERY is flashed
sequentially.
TRANSMITTER ID
7 Seg. LED
All Test Display
Second, it displays the receiving channel of transmitter and transponder which
are in memory, like 0102 Transponder = 1CH, Transmitter = 2CH .
TRANSMITTER ID
Transponder Receiving CH=1ch
Transmitter Receiving CH =2ch
When BT CLEAR SW is released, it will be in Transponder receiving acknowledge
Mode. Transponder receiving channel is displayed in left side LED with green and RSSI
Level radio field intensity is displayed in right side LED with red.
TRANSMITTER ID
=1ch=1ch
Transponder Receiving CH
RSSI Level=35
When RSSI is ON RSSI 40 , RX LED is flashed with green and when NDET is ON, COM LED is flashed with red.
RX
RSSI ON=RX LED ON
N-DET ON=COM LED ON
COM
To change the Transponder receiving channel is switching over SW3 of Rotary
Dip SW in the Main Board to target channel, and then push the TX BATTERY
SW in the Front Panel to memory the setting.
SW3
Receiving
Channel
TX BATTERY
Memory SW for
TX BATTERY SW
RX-W1 Page 20
Transponder Channel Select SW3
Transponder Channel means receiving frequency when receiving the signal
from Transponder.
SW1
Transponder CH
1 CH
Transponder Frequency
314.500MHz
2 CH
3 CH
314.525MHz
314.550MHz
4 CH
5 CH
314.575MHz
314.600MHz
6 CH
7 CH
314.625MHz
314.650MHz
8 CH
9 CH
314.675MHz
314.700MHz
10 CH
314.725MHz
After pushing BT CLEAR SW in Front panel again, it will be in Transmitter
receiving acknowledging Mode.
Current Transponder receiving channel is
displayed in left side LED with green and RSSI Level radio field intensity
is displayed in right side LED with red.
TRANSMITTER ID
Transmitter CH = 1ch
RSSI Level=32
When RSSI is ON RSSI 40 , RX LED is flashed with green and when NDET is ON, COM LED is flashed with red.
RX
RSSI ON=RX LED ON
N-DET ON=COM LED ON
COM
To change the Transponder receiving channel is switching over SW3 of Rotary
Dip SW in the Main Board to target channel, and then push the TX BATTERY
SW in the Front Panel to memory the setting.
SW3
Receiving
Channel
TX BATTERY
Memory SW for
TX BATTERY SW
RX-W1 Page 21
Transmitter Receiving Channel Select SW3
Receiving channel means receiving frequency when receiving the signal from
Transmitter.
SW3
Receiving CH
Transmitter Receiving Frequency
1 CH
318.125MHz
no
2 CH
3 CH
318.500MHz
318.875MHz
4 CH
319.250MHz
NOTE: It is impossible to receive the signal if the transmission wave has
accordance with the receiving wave.
It returns to normal mode by restart.
RX-W1 Page 22
Receiver Test Mode 2 (Melody Test)
When POWER SW is ON in pushing BT CLEAR SW and TX BATTERY SW
on Front Panel simultaneously, it will enter into Test MODE 2.
TX BATTERY
BT CLEAR
BT CLEAR SW
TX BATTERY SW
Same time Push
First, when BT CLEAR SW and TX BATTERY SW is pushing,
is
displayed in 7segment LED for 1sec and then the LED of RX, COM and
TX BATTERY is flashed sequentially.
TRANSMITTER ID
7 Seg. LED
All Test Display
The display of
Seg. LED is cleared after 2sec.
TRANSMITTER ID
7 Seg. LED
All Delete
Second, release BT CLEAR SW and TX BATTERY SW , and push BT CLEAR SW
once. It displays Melody Number 01 in7 seg. LED with red and sounds the melody
of Yankee Doodle from a loudspeaker only once except that Volume Control is OFF
TRANSMITTER ID
01=Yankee Doodle
In addition, if BT CLEAR SW is pushed again, it displays Melody Number 02 in7
seg. LED with red and sounds the melody of Oh Bury Me Not On The Lone
Prairie only once.
Each time BT CLEAR SW is pushed, it sounds 16 melodies and 1 audible
alarm to test these sounds.
It returns to normal mode by restart.
RX-W1 Page 23
Pager Controller
Protocol
In case of using PAGER CONTROLLER, SW1 in Main Board should be ON.
SW1
PAGER
CONTROLLER ON
If the SW1 is ON without connecting Pager Controller by mistake or Pager Controller
power is OFF, it alarms sound each 30sec.
1.
Pager Controller communication
BAUD RATE
DATA BIT
PARITY
STOP BIT
Form
9600BPS
8-BIT
NONE
1BIT
2.Data Format
Start
BIT
(1bit)
DATA
(8bit)
Stop
BIT
(1bit)
3.RS-232-C Connector
Receiver(9Pin)
1 CD
2 SD
3 RD
4 DTR
5 SG
6 DSR
7 RTS
8 CTS
9 RI
PC(9Pin
1 CD
2 RD
3 SD
4 DTR
5 SG
6 DSR
7 RTS
8 CTS
9 RI
RX-W1 Page 24
4.Cominucations Protocol
[PC]
[Receiver]
Sensing Data
Transfer]
The
Receiver
transfers
sensing
information
and
battery
shutoff
information.
It
transfers
the
data
periodically
each 5sec.
…
[BCC][CR]
Transmitter
ID
(4digits) which is sensing
moisture
or
battery
shutoff is transferred
after [:][K], and then
Transmitter status (”1”
= Sensing moisture, ”2”
= Battery shutoff, “3” =
“1”
and
“2”)
is
transferred as singledigit.
When multiple
IDs
or
status
is
transferred,
they
are
broken by
and added
[BCC][CR] at the end.
When there are nothing
of
transmitting
information,
[K][BCC][CR]
are
transferred.
BCC Calculating Methods
(STX)
0101
(CMD)
(ID)
(DATA)
Calculating Range
CN
(BCC)
It gets the SUM from CMD to DATA and divides into MSB 4bits and LSB 4bits, and
then adds 40H and converts into 2 bytes word as hexadecimal.
Example 1
‘ ’ ‘ ’ ‘ ’
41
42
43
LSB
MSB
Example 2
‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’ ‘ ’
LSB
MSB
RX-W1 Page 25
ID Types
Transmitter ID
Transmitter ID “0608” is 4-digit number, first 2-digit is Area ID and last two-digit is
individual unique ID.
16 types of Area ID “01” ”16”(“01” ”10”[Hex])
99 types of Unique ID “01” ”99”(“01” ”63”[Hex])
Transmitter Clone Mode
DC
RS232C
Straight cable
PC under
Windows 95 or
98
TRANSMITTER
Fig.4-1 CONNECTION OF CLONING UNIT
Connect the cloning unit like above chart, and start up PC and then run “Hyper
Terminal” of Windows accessory.
Fig.4.2 Initial window of Hyper Terminal
After running Hyper Terminal, the following window will open. Set as below.
RX-W1 Page 26
Fig.4-3-1 Start-up window of Hyper Terminal
RX-W1 Page 27
Fig.4-3-2 Setting window of COM PORT
Fig.4-3-3 Setting window of COM PORT
RX-W1 Page 28
The following Transmitter start-up screen (Fig.4-4) will be displayed after setting
Communication Port and Communication protocol and insert a battery.
###### TX69W01 Ver.1.0 ######
**** << Current Mode Status >> ****
Current Detection=[ Capacitor ]
1.ID No. = 0112
2.Resistor Detection Time = 3 (s)
3.Capacitor Detection Time = 10 (s)
4.Transmission Qty = 01
5.STOP Time = 10 (s)
6.Serial Modulation Qty = 06
Current setting status
of Transmitter
Change Mode Set = [C] ? Execute = [Enter] ?
(Note: No Key, Auto Execute after 5 sec.)
Fig.4-4 Transmitter start-up screen
At this point when pushing C key within 5sec, the following screen (Fig.4-5) is
displayed and Mode Set can be changed. Pushing Enter key terminates the setting.
**** << Current Mode Status >> ****
Current Detection=[ Capacitor ]
1.ID No. = 0112
2.Resistor Detection Time = 3 (s)
3.Capacitor Detection Time = 10 (s)
4.Transmission Qty = 01
5.STOP Time = 10 (s)
6.Serial Modulation Qty = 06
**** << Mode Set >> ****
[1] = Country Select
[2] = ID No.
[3] = Resistor Detection Time
[4] = Capacitor Detection Time
[5] = Transmission Qty
[6] = STOP Time
[7] = Serial Modulation Qty
[0] = END
Mode Set for
Transmitter
Select [1]-[7],[0] and Press [Enter]
Fig.4-5 Mode Set for Transmitter
RX-W1 Page 29
Country Set (Select [
] in Fig. 4-5)
**** << Country Set >> **** [ESC]=STOP
Current country
Country = USA
[1]=USA [2]=JAPAN
Input [1]or[2] ? and Press [Enter]
>1
Country changed
Fig.4-6 Country Set
Transmitter ID Set (Select [
] in Fig.4-5)
**** << ID No. Set >> **** [ESC]=STOP
Current ID
ID No. = 0112
Input ID No. [0000]-[9999] ? and Press [Enter]
>0101
ID changed
Fig.4-7 Transmitter ID Set
Setting of Resistor Detection Time. (Select [
] in Fig.4-5)
**** << Resistor Detection Time Set >> ****
[ESC]=STOP
Current Detection Time
Resistor Detection Time = 3 (s)
Detection Time changed
unit: [sec]
Input [1]-[9] ? and Press [Enter]
>2
Fig.4-8
Setting of Resistor Detection Time
Setting of Capacitor Detection Time. (Select [
] in Fig.4-5)
**** << Capacitor Detection Time Set >> ****
[ESC]=STOP
Current Detection Time
Capacitor Detection Time = 10 (s)
Input [01]-[99] ? and Press [Enter]
>09
Fig.4-9
Detection Time changed
unit: [sec]
Setting of Capacitor Detection Time
RX-W1 Page 30
Setting of Transmission number of times. (Select [ ] in Fig.4-5)
**** << Transmission Qty Set >> **** [ESC]=STOP
Current
Transmission
number of times
Transmission Qty = 01
Input [01] ? and Press [Enter]
>01
Fig.4-10
In case of USA, Transmission
number of times is only one, and
it is impossible to change.
Setting of Transmission number of times
Setting of Transmission Stop Time. (Select [ ] in Fig.4-5)
**** << Stop Time Set >> **** [ESC]=STOP
Current Stop Time
Stop Time = 10 (s)
Input [10]-[99] ? and Press [Enter]
>11
Fig.4-11
In case of USA, Stop time can be
changed from 10sec to 99sec.
Setting of Transmission Stop Time
Setting of Modulation number of times. (Select [ ] in Fig.4-5)
**** << Serial Modulation Qty Set >> **** [ESC]=STOP
Serial Modulation Qty = 06
Input [01]-[06] ? and Press [Enter]
>05
Fig.4-12
Current
Modulation
number of times
In case of USA, Modulation
number of times can be changed
from 01 to 06.
Setting of Modulation number of times
Select [ ] in Fig. 4-5, and then CLONING MODE will be terminated.
After terminated CLONING MODE, it returns to Normal Mode.
Select [1]-[7],[0] and Press [Enter]
>0
**** << End of Mode Set >> ****
Fig.4-13
CLONING
MODE Termination
RX-W1 Page 31
Transponder Clone Mode
Conversion Cable
RS232C
Straight Cable
Insert to CN2 of
TRANSPONDER
PC under
Windows 95 or
98
Fig.4-14 CONNECTION OF CLONING UNIT
Connect the cloning unit like above chart, and start up PC and then run “Hyper
Terminal” of Windows accessory.
When TRANSPONDER turned ON, the following screen (Fig.4-15) is displayed.
###### RP69W01 Ver.1.0 ######
1. Repeater Retry Qty = [3] (x10sec)
Current Status of
Transponder setting
Change Mode Set = [C] ? Execute = [Enter] ?
Note: No Key, Auto Execute after 5 sec.
Fig.4-15 Transponder set-up screen
At this point when pushing C key within 5sec, the following screen (Fig.4-16) is
displayed and Mode Set can be changed. Pushing Enter key terminates the setting.
**** << Current Mode Status >> ****
1. Repeater Retry Qty = [3] (x10sec)
**** << Mode Set >> ****
[1] = Repeater Retry Qty Set
[0] = END
Select [1],[0] and Press [Enter]
>1
Fig.4-16 Setting for Transponder
RX-W1 Page 32
Setting of Transponder Re-try number of times (Select [ ] in Fig.4-16)
It means even the signal from Transponder is aborted, it holds IDs for re-try
number of times multiplied by 10sec.
>1
Repeater Retry Qty = [3]
Repeater Retry Qty [1]-[9]x10s =4
Fig.4-17
Current Retry number of times
Retry number of times changed.
unit: [10sec]
Setting of Transponder Re-try number of times
Select [ ] in Fig. 4-5, and then CLONING MODE will be terminated.
After terminated CLONING MODE, it returns to Normal Mode.
**** << Mode Set >> ****
[1] = Repeater Retry Qty Set
[0] = END
Select [1],[0] and Press [Enter]
>0
Mode set end.
Fig.4-18
CLONING
MODE Termination
RX-W1 Page 33
Receiver Clone Mode
RS232C
Straight
RECEIVER
PC under
Windows 95 or
98
Fig.4-19 CONNECTION OF CLONING UNIT
Connect the cloning unit like above chart, and start up PC and then run “Hyper
Terminal” of Windows accessory.
When Receiver turned ON, the following screen (Fig.4-20) is displayed.
###### RX69W01 Ver.1.0 ######
1. Melody Channel for Area Id
Area Id 1 = Melody [01] (Ch)
Area Id 2 = Melody [02] (Ch)
Area Id 3 = Melody [03] (Ch)
Area Id 4 = Melody [04] (Ch)
Area Id 5 = Melody [05] (Ch)
Area Id 6 = Melody [06] (Ch)
Current Status
Area Id 7 = Melody [07] (Ch)
Receiver setting
Area Id 8 = Melody [08] (Ch)
Area Id 9 = Melody [09] (Ch)
Area Id 10 = Melody [03] (Ch)
Area Id 11 = Melody [03] (Ch)
Area Id 12 = Melody [02] (Ch)
Area Id 13 = Melody [01] (Ch)
Area Id 14 = Melody [14] (Ch)
Area Id 15 = Melody [15] (Ch)
Area Id 16 = Melody [16] (Ch)
2. Melody Output = Repeat
3. Display switching time for multiple alarmed ID'S = [3]x0.5 (sec)
4. Dispaly holding time for alarmed ID = [3]x10 (sec)
of
Change Mode Set = [C] ? Execution = [Enter] ?
Note: No Key, Auto Execution after 5 sec.
Fig.4-20 Initial screen of Receiver
RX-W1 Page 34
At this point when pushing C key within 5sec, the following screen (Fig.4-5) is
displayed and Mode Set can be changed. Pushing Enter key terminates the setting.
**** << Current Mode Status >> ****
1. Melody Channel for Area Id
Area Id 1 = Melody [01] (Ch)
Area Id 2 = Melody [02] (Ch)
Area Id 3 = Melody [03] (Ch)
Area Id 4 = Melody [04] (Ch)
Area Id 5 = Melody [05] (Ch)
Current Status
Area Id 6 = Melody [06] (Ch)
Receiver setting
Area Id 7 = Melody [07] (Ch)
Area Id 8 = Melody [08] (Ch)
Area Id 9 = Melody [09] (Ch)
Area Id 10 = Melody [03] (Ch)
Area Id 11 = Melody [03] (Ch)
Area Id 12 = Melody [02] (Ch)
Area Id 13 = Melody [01] (Ch)
Area Id 14 = Melody [14] (Ch)
Area Id 15 = Melody [15] (Ch)
Area Id 16 = Melody [16] (Ch)
2. Melody Output = Repeat
3. Display switching time for multiple alarmed ID'S = [3]x0.5 (sec)
4. Dispaly holding time for alarmed ID = [3]x10 (sec)
of
**** << Set of Mode >> **** Cancel=ESC
[1] = Melody Channel for Area Id
[2] = Melody Output
[3] = Display switching time for multiple alarmed IDS
[4] = Display holding time for alarmed ID
Select [1]-[4] and Press [Enter]
>1
Fig.4-21 Mode Set for Receiver
Setting Melody Channel for Area ID (Select [ ] in Fig.4-21)
**** << Change Melody for Area Id & confirm each Melodies >> ****
Cancel=ESC
[1] = Change Melody for Area Id
[2] = Confirm each melodies
Change Melody
Confirm Melody
Select [1]-[2] and Press [Enter]
>1
Fig.4-22 Setting Melody Channel for Area ID
RX-W1 Page 35
Change Melody for Area Id (Select [
] in Fig.4-22)
**** << Change Melody for Area Id >> **** Cancel=ESC
[01] = Setting Area Id 1
[02] = Setting Area Id 2
[03] = Setting Area Id 3
[04] = Setting Area Id 4
[05] = Setting Area Id 5
[06] = Setting Area Id 6
[07] = Setting Area Id 7
[08] = Setting Area Id 8
[09] = Setting Area Id 9
[10] = Setting Area Id 10
[11] = Setting Area Id 11
[12] = Setting Area Id 12
[13] = Setting Area Id 13
[14] = Setting Area Id 14
[15] = Setting Area Id 15
[16] = Setting Area Id 16
Select [01]-[16] and Press [Enter]
>01
Area ID for changing
Fig.4-23 Setting Melody Channel for Area ID
RX-W1 Page 36
Change Melody for Area Id (Select [
] in Fig.4-23)
**** << Change Melody for Area Id >> **** Cancel=ESC
**** << Melody Name >> ****
[01] = Yankee Doodle
[02] = Oh Bury Me Not On The Lone Prairie
[03] = Oh! Susanna
[04] = Under The Spreading Chestnut Tree
[05] = Grandfathers Clock
[06] = Chitty Chitty Bang Bang
[07] = De Camptown Races
[08] = If Youre Happy And You Know It, Clap Your Hands
[09] = Mary Had A Little Lamb
[10] = Edelweiss
[11] = Bridge Over Troubled Water
[12] = I have Been Working On The Railroad
[13] = Do-Re-Mi
[14] = One Sunny Day
[15] = Aloha Oe
[16] = Battle Hymn of The Republic
[17] = Alarm
List of Melody name
Select [01]-[17] and Press [Enter]
Area Id 1 = Melody [01] (Ch)
Melody Channel for Area Id 1 =>01
Melody ID No. changed
Fig.4-24 Setting Melody Channel for Area ID
RX-W1 Page 37
Confirm each melodies (Select [
] Confirm in Fig.4-22)
**** << Confirm each melodies >> **** Cancel=ESC
**** << Melody Name >> ****
[01] = Yankee Doodle
[02] = Oh Bury Me Not On The Lone Prairie
[03] = Oh! Susanna
[04] = Under The Spreading Chestnut Tree
[05] = Grandfathers Clock
[06] = Chitty Chitty Bang Bang
[07] = De Camptown Races
[08] = If Youre Happy And You Know It, Clap Your Hands
[09] = Mary Had A Little Lamb
[10] = Edelweiss
[11] = Bridge Over Troubled Water
[12] = I have Been Working On The Railroad
[13] = Do-Re-Mi
[14] = One Sunny Day
[15] = Aloha Oe
[16] = Battle Hymn of The Republic
[17] = Alarm
List of Melody name
Select [01]-[17] and Press [Enter]
Current Melody Ch= [01]
Melody number confirmed
Request Melody Ch=>01
Fig.4-24 Melody Confirmation
Setting of Melody Output Method (Select [ ] in Fig.4-21)
**** << Melody Output >> **** Cancel=ESC
[0] = One Shot
[1] = Repeat
Current Melody output method
Select [0]-[1] and Press [Enter]
Melody Output = Repeat
Melody Output method for changing
Melody Output =>1
Fig.4-25 Melody output method Set
RX-W1 Page 38
Display switching time for multiple ID’s Set (Select [
] in Fig.4-21)
**** << Display switching time for multiple alarmed IDS >> ****
Cancel=ESC
[1] = 0.5 Sec
[2] = 1.0 Sec
[3] = 1.5 Sec
[4] = 2.0 Sec
[5] = 2.5 Sec
[6] = 3.0 Sec
[7] = 3.5 Sec
[8] = 4.0 Sec
[9] = 4.5 Sec
Current holding time for display
Select [1]-[9] and Press [Enter]
Display switching time for multiple alarmed IDS = [3]x0.5 (sec)
Display switching time for multiple alarmed IDS =>6
Holding time for display changed
Fig.4-26 Changing Display holding time for Multiple IDs
Display holding time for alarmed ID Set (Select [
] in Fig.4-21)
**** << Display holding time for alarmed ID >> **** Cancel=ESC
[1] = 10 Sec
[2] = 20 Sec
[3] = 30 Sec
[4] = 40 Sec
[5] = 50 Sec
[6] = 60 Sec
[7] = 70 Sec
[8] = 80 Sec
[9] = 90 Sec
Current holding time for display
Select [1]-[9] and Press [Enter]
Display holding time for alarmed ID = [3]x10 (sec)
Display holding time for alarmed ID =>3
Holding time for display changed
Fig.4-27 Changing Display holding time
RX-W1 Page 39
Push [Esc] in Fig. 4-21, and then CLONING MODE will be terminated.
After terminated CLONING MODE, it returns to Normal Mode.
**** << Set of Mode >> **** Cancel=ESC
[1] = Melody Channel for Area Id
[2] = Melody Output
[3] = Display switching time for multiple alarmed IDS
[4] = Display holding time for alarmed ID
Select [1]-[4] and Press [Enter]
**** << End of Mode Set >> ****
Fig.4-28
CLONING
MODE Termination
RX-W1 Page 40

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Page Count                      : 40

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