TWINBIRD SC-UE15 FPSC Module UE15 Owner’s Manual
- June 15, 2024
- TWINBIRD
Table of Contents
- SC-UE15 FPSC Module UE15
- Product Information
- Specifications
- Product Usage Instructions
- 1. Restriction of Export
- 2. Warning and Caution
- (1) Power Source
- (2) Ambient Temperature
- (3) Cold Side Temperature
- (4) Heat Reject Fin
- (5) Handling Heat Reject Fin Assembly
- (6) Unusual Noises
- (7) Shock
- (8) Exposure to Water
- (9) Exposure to Reactive Gases
- (10) Exposure to Fire or Excessive Heat
- (11) Fire Hazard
- (12) Electrical Cords
- FAQ (Frequently Asked Questions)
- Q: What power source does the FPSC 15 require?
- Q: What is the recommended ambient temperature range for
- Q: Can the cold side temperature of the FPSC 15 go below -120
- Q: Can I use heating elements directly on the cold side of the
- Q: What should I do if I hear unusual noises coming from inside
SC-UE15 FPSC Module UE15
Product Information
Specifications
- Model: SC-UE15
- Name: FPSC 15
- Power Source: DC48V, DC12V, 24V, AC100240V
Product Usage Instructions
1. Restriction of Export
The following regulations apply to the Stirling Cooler and
permission for export by the Ministry of Economy, Trade and
Industry is required before exporting Stirling coolers from Japan
for abroad. If you wish to export the product, please contact us
prior to exporting.
2. Warning and Caution
(1) Power Source
The FPSC Module must be used with a 48 V DC power source.
Operating the module with any input voltage other than 48 V DC can
cause internal damage.
(2) Ambient Temperature
The FPSC Module is designed for use in ambient temperatures
between 0 – 40 deg. C. Operating the module outside this
temperature range can result in internal damage.
(3) Cold Side Temperature
The cold side of the FPSC Module should be maintained between
-120 and +70 deg. C. Operation outside of this temperature range
could result in internal damage. Do not apply heating elements
directly to the cold side to prevent damaging internal parts.
(4) Heat Reject Fin
Use caution to prevent the Heat Reject Fin from being filled by
dust.
(5) Handling Heat Reject Fin Assembly
Use caution when handling the Heat Reject Fin assembly to
prevent damage or injury. Inspect the assembly for deformity or
breakage before use.
(6) Unusual Noises
Reduce the output setting of the FPSC Module if unusual noises
are observed coming from inside the pressure vessel. Contact
Twinbird if the reduced output setting does not eliminate the
unusual noises.
(7) Shock
Avoid subjecting the FPSC Module to excessive shock as it could
cause internal damage.
(8) Exposure to Water
Direct exposure of the FPSC Module and PCB to water or other
liquid could cause electrical failure.
(9) Exposure to Reactive Gases
Do not use the FPSC Module and the drive PCB in acidic or
reactive gas environments. Rust or other corrosion may damage their
integrity and shorten the lifespan.
(10) Exposure to Fire or Excessive Heat
Direct exposure of the FPSC Module and PCB to fire or excessive
heat could cause internal damage.
(11) Fire Hazard
Warning: Placing the FPSC Module into fire or excessive heat
could cause expansion of the contained gas and explosion.
(12) Electrical Cords
Do not put excessive strain on the electrical cords as it could
cause damage to the wire and cause the FPSC Module to stop
operating.
FAQ (Frequently Asked Questions)
Q: What power source does the FPSC 15 require?
A: The FPSC 15 requires a 48 V DC power source.
Q: What is the recommended ambient temperature range for
operating the FPSC 15?
A: The recommended ambient temperature range for operating the
FPSC 15 is between 0 – 40 deg. C.
Q: Can the cold side temperature of the FPSC 15 go below -120
deg. C?
A: No, the cold side temperature of the FPSC 15 should be
maintained between -120 and +70 deg. C.
Q: Can I use heating elements directly on the cold side of the
FPSC 15?
A: No, do not apply heating elements directly to the cold side
of the FPSC 15 to prevent damaging internal parts.
Q: What should I do if I hear unusual noises coming from inside
the pressure vessel of the FPSC 15?
A: Reduce the output setting of the FPSC Module. If the unusual
noises persist, please contact Twinbird for further assistance.
Model: SC-UE15
Name: FPSC 15 FPSC 15
Instruction Manual
Ref. No. TB-00006168-3
SC-UE15R
SC-UERF
FPSC 15R
FPSC 15
FPSC 15R with Thermal Conductor FPSC Module 15 with Vacuum Flange
TWINBIRD CORPORATION
(1/16)
10
2019 11
Ref. No. TB-00006168-3 1. Restriction of Export
The following regulations shall apply to Stirling Cooler and permission for
export by the Ministry of Economy, Trade and Industry is required before
exporting Stirling coolers from Japan for abroad.
Foreign Exchange and Foreign Trade Law-section 1 of article 48. Foreign
Exchange and Foreign Trade Law-section 1 of article 67. Export Trade Control
Ordinance-section 2 of article 8.
If you wish to export our Products from Japan for abroad, please contact us
prior to exporting.
The above regulations were applied at the time of November 2019. Laws and
regulations may be revised according to the legal revisions.
(2/16)
2. (1) FPSC Free Piston Stirling Cooler Module DC48V DC12V 24V AC100240V
Ref. No. TB-00006168-3
2. Warning and Caution (1) The Free Piston Stirling Cooler Module (FPSC )
must be used with a 48 V DC power source. Internal damage can result from
operating this FPSC Module directly with any input voltage other than 48 V DC.
(2) 040
(2) The FPSC Module is designed for use in ambient temperatures between 0 – 40 deg. C. Internal damage could result from operating the FPSC Module outside this temperature range.
(3) -120+70
(3) The cold side of the FPSC Module should be maintained between -120 and +70 deg. C. Operation outside of this temperature range could result in internal damage to the FPSC Module. To avoid the possibility of damaging to internal parts by overheating the FPSC. Module, do not apply heating elements directly to the cold side.
(4)
(4) Use caution to prevent the Heat Reject Fin from being filled by dust.
(5)
(5) Use caution when handling the Heat Reject Fin assembly to prevent damage or injury. Inspect the Heat Reject Fin assembly for deformity or breakage before use.
(6) FPSC FPSC
(6) Reduce the output setting of the FPSC Module if unusual noises are observed coming from inside the pressure vessel. Please contact Twinbird if the reduced output setting does not eliminate the unusual noises.
(7) FPSC
(7) Avoid subjecting the FPSC Module to excessive shock. It could cause internal damage.
(8) FPSC
(8) Direct exposure of the FPSC Module and PCB to water or other liquid could cause electrical failure.
(9)
(9) Do not use the FPSC Module and the drive PCB in acidic, reactive gases or around places that reactive gases are made. Rust or other corrosion may damage them integrity and shorten the life span.
(3/16)
(10) FPSC
Ref. No. TB-00006168-3 (10) Direct exposure of the FPSC Module and PCB to fire
or excessive heat could cause
internal damage.
(11) FPSC
(11) Warning: Placing the FPSC Module into fire or excessive heat could cause expansion of the contained gas and explosion.
(12)
(12) Do not put excessive strain on the electrical cords. It could cause damage to the wire and cause the FPSC Module stop operating.
(13) FPSC
(13) Do not disassemble the FPSC Module.
(14) FPSC
(14) To avoid the danger of burns, avoid touching the heat reject fin and certain parts on PCB with your bare hands during or immediately after operation.
(15) FPSC
(15) To avoid the danger of frostbite, avoid touching the cold side and its immediate surroundings with your bare hands during or immediately after operation.
(16) FPSC
(17) FPSC
(16) Please provide thermal insulation around cold side to prevent frost and
dew condensation. If conditions require that you need to operate the FPSC
Module without thermal insulation, the cold side may develop a coating frost
or water. If this occurs, please clean the cold side with a soft cloth. Having
frost or condensation on the cold side surface can cause an apparent reduction
of cooling capacity. Also, if water drips down on a power cord or inner
mechanical parts it defrosts, it could cause a short circuit or corrosion.
(17) Failure of the FPSC Module could result from subjecting the cold side to
a strong force. It is made of thin stainless steel sheet surrounding a
precision structure.
(18) 1/4
Stirling cooler
(18) When you intend to scrap the Stirling cooler, disassemble the Stirling cooler from
casing, discharge internal gas from the copper pipe by using 1/4 inch purging valve
and then treat based on each country regulation. Also, please use safety gloves and
work in the release space when disassembling and pulling the gas out.
Copper pipe
(4/16)
(19) (A) (B) (C)
Ref. No. TB-00006168-3 (19) Although the drive PCB is protected against
reverse connection, use caution to
prevent static electricity or short circuit. (A) Keep the PCB in the static
shielding bag before use. (B) Discharge static electricity from your body
using wrist straps, etc. (C) Electric parts may be damaged by the short
circuit when the backside of the PCB touches some metal parts. It may be
damaged by static electricity. Use caution to prevent damage of backside
electric parts.
(20) SC-UE15R/UERF M5 5Nm
(20) The M5 screw for contacting the cold side part of SC-UE15R/UERF uses threaded Inserts, and it may come out during the installation/removal process. Make sure that the screw tightening torque is 5Nm or less while checking that the screws are engaged, and that the cold side part is at room temperature before attaching or detaching.
(21)
(21) In order to improve the performance, the FPSC and associated parts may be changed within the scope of the specification without any consultation or advice.
(22)
(22) Please ensure that local laws or standards are met for final products that are equipped with this FPSC Module.
3. Specification
3.1 Exterior [FPSC FPSC Module] Heat Reject Fin
Cold Side
Blower
Blower Lead Wire
Thermistor Lead Wire
Power Cable
[ Drive PCB] Power Source Input
FPSC FPSC
Blower
Warm Side Thermistor
(5/16)
3.2 Main Size [FPSC FPSC Module SC-UE15] [FPSC FPSC Module SC-UE15R]
Ref. No. TB-00006168-3
[mm]
(6/16)
[FPSC FPSC Module SC-UERF] [ Drive PCB]
Ref. No. TB-00006168-3
Solder Side Height Parts Side Height
Secure ventilation space and dissipate heat.
(7/16)
[mm]
3.3 Main Specification
No.
Item
1 Product Dimension
2 Weight
3
Refrigerant
4
Amount of Refrigerant
5 Inside Pressure of Stirling Cooler
6 1 Power Source Voltage*1
7 1 Rating Current*1
8 2 Cooling Capacity*2
[] : 25
:
[Condition] Ambient Temp.: 25
Output Setting: Max 9 3 Ambient Temp.
10 Operating Conditions Cold Side Temp.
11 of Temperature and Warm Side Temp.
12 Humidity*3
Humidity
13 Accessories
Ref. No. TB-00006168-3
Specification
SC-UE15
SC-UE15R
SC-UERF
W180 x H160 x D428 mm
W180 x H160 x D431 mm
Applox. 8.5 kg
Applox. 9 kg
Applox.12 kg
Helium
Applox. 3 g
2.2 MPa (20)
DC 48 V ±10 % ( for Drive PCB)
5A 9A 9A
Prepare power supply with output current more than 9A for peak current 9A.
42.5W and over (: -80) (Cold Side Temp.: -80 deg. C)
15W and over (: -100) (Cold Side Temp.: -100 deg. C)
0 40 -120 +70
0 +70 0 90 %RH No Dew Condensation
Drive PCB
1 (1) TDK-Lambda HWS300P-48 (2) TDK-Lambda ZWS240BP-48 1.5m/s
2
3 (1) 0 FPSC
(2)
1 Power Supplies tested with Drive PCB (1) TDK-Lambda HWS300P-48 (Covered type) (2) TDK-Lambda ZWS240BP-48 (Forced air cooling of 1.5m/s or more should be applied to the part surface using a fan, etc.)
2 Cooling capacity changes depends on the cold side temperature, ambient temperature, etc. Please contact us for more information.
*3 (1) If you use the cold side temperature over 0 deg. C condition, please turn the FPSC voltage down accordingly the application product.
(2) An abnormal noise may occur from the FPSC when the cold side temperature
is changed suddenly. Please use accordingly the application product to prevent
the abnormal noise.
(8/16)
4. 4.1
(1) DC48V 5A 9A 9A
(2) (3)
4.2 (1)DC48V (2) ON(CLOSE)
4.3 (1) OFF(OPEN) (2)DC48V
4.4 Wiring [ Voltage Input]
Temp. Controller
+ (15V)
1
Switch
4
–
8
Temp. Sensor
FPSC
FPSC Module
Blower
Thermistor
FPSC
Drive PCB CN7 CN2 CN6
CN8
DC48V
DC48V Power Supply –
+ CN1
–
Ref. No. TB-00006168-3
4. Basic Operation 4.1 Preparation
(1) Power source: Voltage DC48V, Rating current: 5A Prepare power supply
output current more than 9A for peak current 9A.
(2) Temp. controller and Temp. sensor (3) Wire and Switch
4.2 Start Procedure (1) Turn on the Switch of Power supply. (2) Turn on the Switch of the Drive PCB.
4.3 Stop Procedure (1) Turn off the Switch of the Drive PCB. (2) Turn off the Switch of Power supply.
[ Current Input]
Temp. Controller
2
+ (420mA) 3
–
4
Temp. Sensor
8 Switch
FPSC
FPSC Module
Blower
Thermistor
FPSC
DC48V
DC48V Power Supply –
–
Drive PCB CN7 CN2 CN6
CN8 CN1
(9/16)
Ref. No. TB-00006168-3
4.5
4.6
()
Heat Reject Fin
Blower
4.5 Heat Rejection Provide with some air intake filters or remove dust
regularly on the heat reject fin to prevent the heat reject fin from being
filled by dust. The dust filling reduces heat rejection and cooling capacity
and may cause damage of FPSC. In order to have better heat rejection and
cooling capacity, get fresh air for the intake. In particular, separate the
intake duct and exhaust duct to prevent the exhaust air leakage to the intake.
4.6 Thermal Insulation Cover with the insulation material over the area the
temperature can be lower than ambient between the cold side and the warm side,
which is called Insulation Area, to prevent having frost or condensation.
Having frost or condensation on the Insulation Area can cause an apparent
reduction of cooling capacity. Also, if water drips down on a read wire or
inner mechanical parts it defrosts, it could cause a short circuit or
corrosion. The Insulation Area may be closed to the cold side or up to near
the heat reject fin depend on the operation condition. The insulation must not
inhibit the intake airflow. Especially when using Stirling cooler vertically
(with the cold side part facing up), make sure that the cooling part is well
insulated so that condensed water dose not enter the Stirling cooler. If
condensed water enters, it could cause internal damage.
Insulation Area
Intake Air Cold Side
Exhaust Air
Exhaust Air Leak Prevention
(10/16)
5.1
Pin
[CN1] PBX10C51-2
: M3.5
: 0.81.2Nm
1 +
2 [CN2] JST B2B-PH-K-E ()
: JST PHR-2
1 2 [CN6] 1
JST B3B-EH () : JST EHR-3 +
2 3 [CN8]
() PBX10C51-2 : M3.5 : 0.81.2Nm
1 FPSC
2
[SW1] DIP SW – [SW2] –
DIP SW 101070 ()
[SW3] –
DIP SW 10007.6 ()
Pin
[CN7] ML-700-NV : 0.320.65mm 2822 AWG 0.080.32mm2 (2822 AWG) (0.12mm ) : 910
mm
1 1 2 + 2
3 4 5 6 1 7 2
8 GND ()
9 DC5V
[FG] 1.8 mm () – GND ()
CN1 CN8
FG
– +
5. Input and Output of Drive PCB
5.1 List
Pin
Specification
[CN1] YOSHIDA ELECTRIC INDUSTRY PBX10C51-2
– Screw: M3.5 – Proper Torque: 0.81.2Nm
1 2 [CN2]
+ Power Source Input JST B2B-PH-K-E (Blue) Acceptable Connector: JST PHR-2
1 2 [CN6] 1 2 3 [CN8]
Warm Side Thermistor
JST B3B-EH (White) Acceptable Connector: JST PHR-2 + Output to Blower NC
YOSHIDA ELECTRIC INDUSTRY PBX10C51-2 – Screw: M3.5 – Proper Torque: 0.81.2Nm
1 Output to FPSC 2 CN6 CN2 CN7
Pin 9 1
SW3
Ref. No. TB-00006168-3
Pin
Specification
[CN7] SATO PARTS ML-700-NV
-Acceptable Wire: Solid wire 0.320.65mm 2822 AWG Stranded wire 0.080.32mm2 (2822 AWG) (Element wire 0.12mm Min)
-Strip Length: 9 – 10 mm
1 Setting of Output 1
2 + Setting of Output 2
3 –
4 Drive / Stop of FPSC
5 Emergency Signal
6 Alarm Signal 1
7 Alarm Signal 2
8 GND (Signal Side)
9 DC5V
[FG] 1.8 mm (Hole)
– GND (Power Source Side)
[SW1] DIP SW
– Setting of Output Voltage Change
[SW2] DIP SW
– Setting of Warm Side Temperature Limit 101070
(Please use with this setting.)
[SW3] DIP SW
– Setting of Output Current Limit 10007.6A
(Please use with this setting.)
SW2
SW1
(11/16)
Ref. No. TB-00006168-3
5.2
No.
[CN1]
1
DC 48 V
2 DC 43.2 52.8 V (DC 48 V ± 10 %)
3
5A (48V )
[CN6]
1
FPSC
2
DC 12 V ±10%
3 2 A
[CN7] Pin1 1 1
1 Step No.
1
256
2 [V]
0V1 1
5
(CN7-Pin1)
4/255V/Step
3 [V]
0
0
33.5
(CN8)
33.5/255V/Step
5V6 33.5
[CN7] Pin2,3 2 1
1 Step No. 2 [mA] (CN7-Pin2,3) 3 [V] (CN8)
0I4 0
: 200 k
1
256
4
20
16/255mA/Step
0
33.5
33.5/255V/Step
20I21 33.5
: 94 1
5.2 Details No.
[CN1] Power Source Input 1 Rating voltage 2 Allowable voltage 3 Rating current
[CN6] Output to Blower 1 Condition for output 2 Output voltage 3 Output
current capacity
[CN7] Pin1 Setting of Output 1 *1
1 Step No. 2 Input Voltage [V] (CN7-Pin1) 3 Output Voltage [V] (CN8) Input
Circuit
Specification
DC 48 V DC 43.2 52.8 V (DC 48 V ± 10 %) 5A (at 48V input)
While FPSC is driven DC 12 V ±10% 2 A
0V1 0
Available Input Range
1
256
1
5
4/255V/Step
0 33.5
33.5/255V/Step
5V6 33.5
[CN7] Pin2,3 Setting of Output 2 *1
1 Step No. 2 Input Current [mA] (CN7-Pin2,3) 3 Output Voltage [V] (CN8)
Input Circuit
0I4 0
Impedance: 200 k
Available Input Range
1 256
4
20
16/255mA/Step 0 33.5
33.5/255V/Step
20I21 33.5
*1 Input voltage has priority over input current.
Differential input impedance: 94
(12/16)
No.
[CN7] Pin4
1 High (DC5V) (Open)
2 Low (GND)
Vref
47k
IN 100 1k
Vref: DC5V (±10%)
[CN7] Pin5
1 High 2 Low
FPSC
(1) SW2 (2) (3) (1)
MIN.
TYP.
MAX.
High Vref 0.5V
Low
–
Vref GND
–
I=1mA
GND + 0.5V I=1mA
High
8mA
10mA
–
V=4.5V
Low
–
10A
12A V=0.5V
Vref: DC5V (±10%)
Ref. No. TB-00006168-3
No.
Specification
[CN7] Pin4 Drive / stop of FPSC
1 High (DC5V) (Open)
2 Low (GND)
Stop Drive
Input Circuit
Vref
47k
Vref: DC5V (±10%)
IN 100 1k
[CN7] Pin5 Emergency signal output
1 High
Emergency Power supply to the FPSC and the Fan motor will be stopped.
2 Low
Normal
- Emergency situations (1) Temperature sensor at warm side has reached the limit temperature set by SW2. (2) Temperature sensor at warm side is disconnected or wire is cut. (3) The power source voltage is out of allowable range. *Condition for cancellation of the emergency signal output (1) When the on / off signal goes off
Output Circuit
Item Output High Voltage Low
MIN. Vref 0.5V
–
TYP. Vref GND
MAX. –
GND + 0.5V
Condition I=1mA I=1mA
Output High
8mA
10mA
–
V=4.5V
Current Low
–
10A
12A V=0.5V
Vref: DC5V (±10%)
(13/16)
No.
[CN7] Pin6 1
1 High
2 Low
(1) SW2 5 (1)
[CN7] Pin7 2
1 High
2 Low
(1) FPSC
(1)
1 2
High Low High Low
MIN. Vref 0.5V
8mA
–
TYP. Vref GND 10mA 10A
MAX. –
GND + 0.5V –
12A
I=1mA I=1mA V=4.5V V=0.5V
Vref: DC5V (±10%) [CN8] FPSC
1 2 3 4 5
PWM 80.0 Hz 28.8 kHz AC 033.5 V (RMS) at 80.0Hz 9A (RMS)
Ref. No. TB-00006168-3
No.
Specification
[CN7] Pin6 Alarm signal 1
1 High
Alarm
2 Low
Normal
- Situation for alarm signal 1 output (1) The temperature of the sensor on the warm side reaches 5 deg C lower than the temperature set by SW2. *Condition for cancellation of the emergency signal output (1) When the temperature of the sensor on the warm side goes down 5 deg C lower than the temperature set by SW1.
[CN7] Pin7 Alarm signal 2
1 High
Alarm
2 Low
Normal
- Situation for alarm signal 1 output (1) The level of output set signal is out of the allowed range. *Condition for cancellation of the emergency signal output (1) When the level of output set signal is within the allowable range.
Output Circuit of Alarm signal 1 and Alarm signal 2
Item Output High Voltage Low Output High Current Low
Vref: DC5V (±10%) [CN8] Output to FPSC
1 Drive wave shape 2 Frequency 3 Carrier frequency 4 Output voltage range 5
Output current capacity
MIN. Vref 0.5V
8mA
–
TYP.
Vref GND 10mA 10A
MAX.
GND + 0.5V
12A
Condition I=1mA I=1mA V=4.5V V=0.5V
PWM 80.0 Hz 28.8 kHz AC 033.5 V (RMS) at 80.0Hz 9A (RMS)
(14/16)
No.
[SW1] 3
SW1
1
2
SW1
0101 1 step /2.4 sec 10min12sec 1011 1 step /8.0 sec 34min00sec
0110 1 step /3.2 sec 13min36sec 1100 1 step /10.4 sec 44min12sec
0111 1 step /4.0 sec 17min00sec 1101 1 step /12.8 sec 54min24sec
1000 1 step /4.8 sec 20min24sec 1110 1 step /16.0 sec 1h08min00sec
1001 1 step /5.6 sec 23min48sec 1111 1 step /19.2 sec 1h21min36sec
1010 1 step /6.4 sec 27min12sec –
–
–
1 [0101]
2 0V 33.5V
3 : 10 step / 0.13 sec
[SW2] 1010 70 [SW3] 1000 7.6A
Ref. No. TB-00006168-3
No.
Specification
[SW1] Setting of Output Voltage Change 3 SW 1 Change speed of Ramp time *2
output voltage 0101 1 step /2.4 sec 10min12sec
SW1 1011
Change speed of output voltage 1 step /8.0 sec
Ramp time 34min00sec
0110 1 step /3.2 sec 13min36sec 1100 1 step /10.4 sec 44min12sec
0111 1 step /4.0 sec 17min00sec 1101 1 step /12.8 sec 54min24sec
1000 1 step /4.8 sec 20min24sec 1110 1 step /16.0 sec 1h08min00sec
1001 1 step /5.6 sec 23min48sec 1111 1 step /19.2 sec 1h21min36sec
1010 1 step /6.4 sec 27min12sec
–
–
–
*1 Select [0101] or bigger.
Stirling Cooler may operate with rather larger noise and /or vibration when your
cooling object has larger heat mass or heat fluctuation in some cases. This ope-
ration in such condition also causes irreversible damage to your Stirling Cooler. Refer to “CAUTION” on next page and set optimum configuration on circuit board
when Stirling cooler operates with larger noise or larger vibration.
*2 The time from 0V to 33.5V
*3 Change speed of output voltage is fixed in process for stop: 10 step / 0.13 sec
[SW2] Setting of Warm Side Temperature Limit
1010 70 deg. C
Please use with this setting. Changing this setting could cause internal damage.
[SW3] Setting of Output Current Limit
1000 7.6A
Please use with this setting. Changing this setting could cause internal damage.
SC
Mail: fpsc@twinbird.co.jp
Tel: 03-3663-8774
Fax: 03-3663-8642
Mail: afterservice@twinbird.co.jp
Tel: 0120-337-445
Fax: 0256-93-1077
0256-92-8875
959-0292 2084-2
6. Contact
Inquiries regarding products
SC Sales Department
E-Mail: fpsc@twinbird.co.jp
Phone: +81-3-3663-8774
Facsimile: +81-3-3663-8642
Inquiries regarding repairs
Quality Customer Service Line
E-Mail: afterservice@twinbird.co.jp Facsimile: +81-256-93-1077
Address: 2084-2, Yoshida-nishiota, Tsubame-shi, Niigata-ken, 959-0292, Japan
TWINBIRD CORPORATION Repair Service Center
(15/16)
Ref. No. TB-00006168-3
(16/16)