ACDC Fan
9ADW1TU type
■ Reference Dimensions of Mounting Holes and Vent Opening (unit: mm)
Inlet nozzle sideFan side
4-ø4.5
ø58±0.5
45°
ø158±0.5
ø148±0.5
4-ø4.5
■ Reference Diagram for Mounting
(ø128)
(100)
(14)
Fan
Inlet nozzle
Bolt length: 6 mm max.
(2)
Finger guard
Inlet nozzle
Fan
■ Dimensions
(unit: mm)
Rotating direction
Airflow
direction
Airflow
direction
4-M4
ON
TA
RO
TI
DE
PTH
MAX.
OF
EWS
6mm
SCR
90°
45°
ø190±1
ø132.8±1
65±1
88±1
ø58±0.3
ø142±1
+40
400 -0
(340)
(10)
Power lead wire
AWG 20
UL 1430
Other lead wire
AWG 24
UL 1430
CATALOG No. C1113B002 ‘21.3
3-33-1 Minami-Otsuka, Toshima-ku, Tokyo 170-8451, Japan TEL: +81 3 5927 1020 https://www.sanyodenki.com
The names of companies and/or their products specified in this catalog are the trade names, and/or trademarks and/or registered trademarks of such respective companies.
“San Ace” is a trademark of SANYO DENKI CO.,LTD.
Specifications are subject to change without notice.
Notice
●Please read the "Safety Precautions" on our website before using the product.
●The products shown in this catalog are subject to Japanese Export Control Law. Diversion contrary to the law of exporting country is prohibited.
●For protecting fan bearings against electrolytic corrosion near strong electromagnetic noise sources,
we provide effective countermeasures such as Electrolytic Corrosion Proof Fans and EMC guards. Contact us for details.
ø
190
×
88
mm
■
Specifications
When the optional inlet nozzle (109-1073H) is mounted.
■
Common Specifications
■
Features
□ Material
Motor case: Aluminum (Black coating), Impeller: Plastic (Flammability: UL 94V-0)
□
Expected life
Refer to specifications
(L10 life: 90% survival rate for continuous operation in indoor free air at 60˚C, rated voltage)
Expected life at 40°C is for reference only.
□
Motor protection function
Locked rotor burnout protection
□
Dielectric strength
50/60 Hz, 1500 VAC, for 1 minute (between lead wire conductors and motor case)
□
Insulation resistance
10 MΩ or more with a 500 VDC megger (between lead wire conductors and motor case)
□
Sound pressure level (SPL)
At 1 m away from the air inlet
□
Operating temperature
Refer to specifications (Non-condensing)
□
Storage temperature
-30 to +70°C (Non-condensing)
□
Lead wire AC power input L: Orange N: Gray Ground Yellow / Green
+10 VDC output Red Black Sensor Yellow Control Brown
□ Mass
1700 g
□
Ingress protection
IP56
The models listed below have pulse sensors with PWM control function.
Model no.
Rated voltage
[V]
Operating
voltage range
[V]
Frequency
[Hz]
PWM
duty cycle*
[%]
Rated current
[A]
Rated input
[W]
Rated speed
[min
-1
]
Max. airflow
[m
3
/min] [CFM]
Max. static pressure
[Pa]
[inchH
2
O]
SPL
[dB(A)]
Operating
temperature
[°C]
Expected
life
[h]
9ADW1TU11P0G001
115
90 to 132
50/60
100 2.5 150 4800 16.5 583 1200 4.82 72
-25 to +60
40000/60°C
(70000/40°C)
20 0.3 10 1000 3.3 116 52 0.21 43
9ADW1TU23P0G001
230
180 to 264
100 1.3 150 4800 16.5 583 1200 4.82 72
20 0.2 10 1000 3.3 116 52 0.21 43
* PWM input frequency is 1 kHz; models without specifications at 0% PWM duty cycle have zero fan speed at 0%.
High Static Pressure
This fan delivers a maximum static pressure of 1200 Pa.
They are ideal for blowing applications in air conditioning systems such as FFU (fan
filter units) and air purifiers, which require high static pressure performance, and
for cooling inverters and the housings of communication systems, which have high
mounting density.
No DC Power Supply Required
With an embedded AC-DC converter, these fans can be driven by an AC power
supply.
This eliminates the need for a high-capacity DC power supply, reducing overall costs.
Low Noise and High Energy Efficiency
The PWM control function enables the control of fan speed, contributing to lowering
noise and improving energy efficiency of devices.
Water and Dust Resistance
This fan has IP56-rated* water and dust protection. It maintains stable operation
even in harsh environments.
* The degree of protection (IP code) is defined by IEC 60529 (International Electrotechnical Commission).
IP56:
- Protection against a level of dust that could hinder operation or impair safety
- Protection against powerful water jets
■ Airflow - Static Pressure Characteristics
0 5 10 15 20
0
0
200
100
400
600
800
1400
1200
1000
200 300 400 500 600
1
2
3
4
5
9ADW1TU11P0G001
9ADW1TU23P0G001
Airflow
Static pressure
(CFM)
(m
3
/min)
(Pa)
(inch H
2
O)
115/230 VAC 50/60 Hz
PWM duty cycle
100%
115/230 VAC 50/60 Hz
PWM duty cycle
60%
115/230 VAC 50/60 Hz
PWM duty cycle
20%
■ PWM Duty - Speed Characteristics Example
1000
2000
3000
4000
5000
6000
Fan speed
PWM duty cycle
(min
-1
)
(%)
1000
4800 min
-1
Input voltage
: 115 VAC 50/60 Hz
230 VAC 50/60 Hz
PWM frequency: 1 kHz
9ADW1TU11P0G001
9ADW1TU23P0G001
■ PWM Input Signal Example
Input signal waveform
T
T
1
V
IL
V
IH
T
×
100
T
1
T
1
V
IH
= 2.8 to 10.5 V
V
IL
= 0 to 0.5 V
PWM duty cycle (%) = PWM frequency 1 (kHz) =
Current source (Isource) = 5 mA max. (when control voltage is 0 V)
Current sink (Isink) = 0.1 mA max. (when control voltage is 10 V)
Control terminal voltage = 11.5 V max. (when control terminal is open)
When the control terminal is open,
fan speed is the same as when PWM duty cycle is 100%.
Either TTL input, open collector or open drain can be used for
PWM control input signal.
■ Example of Connection Schematic
Inside of fan
Pull-up resistor
Pull-up voltage
I
out
= 20 mA max.
Sensor output
(V
CE
)
+10 VDC output
PWM input signal
PWM
+10 V
TRANSFORMER
PHOTO COUPLER
PHOTO COUPLER
22 Ω
SENSOR
GND
3 kΩ
V
CE
= +27.6 V max.
Ic = 10 mA max. [V
OL
=V
CE
(SAT)=1 V max.]
Pull-up resistor = 5 kΩ max.
I
SOURCE
I
SINK
I
C
I
OUT
■ Specifications for Pulse Sensors
Output circuit: Open collector
In case of steady running
Output waveform
T
0
(One revolution)
T
1
0 V
V
OL
V
OH
T
2
T
3
T
4
ø
190 × 88 mm
T
1 to 4
≒ (1/4) T
0
T
0
=
60/4N (s)
N = Fan speed (min
-1
)