Transcript
Splash Proof Centrifugal Fan 100mm
100W
Splash Proof Centrifugal Fan ■ Features
Splash proof and dust resistant ・Protection class IP54* water and dust resistant performance. ・Maintains safe operation even in harsh environments.
Large air flow and high static pressure ・Maximum air flow : 2.03 m3/min ・Maximum static pressure : 708 Pa
Energy-saving and Low noise ・Power consumption: 17.28W ・Sound Pressure Level: 65dB(A)
※“IP54” is a protection specification for protection against water sprays and dust. It is based on IEC (International Electrotechnical Commission) and JIS (Japanese Industrial Standards) and specified as follows. Ingress of dust is not entirely prevented, but it must not enter in sufficient quantity to interfere with the satisfactory operation of the equipment; complete protection against contact. Water splashing against the enclosure from any direction shall have no harmful effect.
φ
100mm×25mm
■ Specifications When our inlet nozzle[Option(Model NO. : 109-1080)]is mounted.
Model No.
Rated Voltage [V]
Operating PWM Rated Current Rated Input Rated Speed Voltage Range Duty Cycle* -1 [V]
Air Flow
Static Pressure
SPL
[min ] [m3/min][CFM] [Pa] [inchH2O] [dB(A)]
[A]
[W]
100
0.36
17.28
7,400
2.03
71.7
708
2.84
65
100 0
0.22 0.04
10.56 1.92
6,400 2,000
1.77 0.51
62.5 18.0
560 48
2.25 0.19
60 34
[%]
Operating Life Temperature Expectancy [℃]
[h]
−10 to +70
40,000
Note 1)
9W1TM48P4G01 48
36 to 60
9W1TM48P4H01
Note 1 : Fan does not rotate when PWM duty cycle is 0%. Max input is 9W1TM48P4G01:22W, 9W1TM48P4H01:14W at rated voltage.
* PWM Frequency:25kHz
■ Common Specifications □ Material ・・・・・・・・・・・・・・・・・・・・・・・・・・ Motor case : Aluminum (Black Painting), Impeller : Plastics (Flammability: UL94V-0) (L10: Survival rate: 90% at 60℃, rated voltage, and continuously run in a free air state) □ Motor Protection System ・・・・・・・・・・ Current blocking function and reverse polarity protection □ Dielectric Strength ・・・・・・・・・・・・・・・・ 50/60 Hz, 500VAC, 1 minute (between lead conductor and motor case) □ Sound Pressure Level (SPL) ・・・・・・・・ Expressed as the value at 1m from air inlet side □ Storage Temperature ・・・・・・・・・・・・・・ −30℃ to +70℃ (Non-Condensing) +red ○ ーblack Sensor : yellow Control : brown □ Lead Wire ・・・・・・・・・・・・・・・・・・・・・・・・ ○ □ Mass ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Approx. 160g
100mm
□ Life Expectancy ・・・・・・・・・・・・・・・・・・・ Varies for each model
100W ■ Air Flow - Static Pressure Characteristics ・ PWM Duty Cycle (inch H2O)
・ Operating Voltage Range (inch H2O)
3.5
3.5 (Pa)
DC 48V
800
3.0 700
1.5
600 500
PWM Duty Cycle 100%
400 300
1.0 200 0.5
2.5
0
0.5
1.0
1.5
2.0
500 36 V
1.5
400 300
1.0 200 0.5
0
60 V
600
48 V 2.0
50%
100
0
100
0
2.5 (m3/min)
0 0
10 20 30 40 50 60 70 80 90 (CFM)
0.5
1.0
1.5
2.0
2.5 (m3/min)
10 20 30 40 50 60 70 80 90 (CFM)
→ Air Flow
→ Air Flow
9W1TM48P4G01
9W1TM48P4G01
(inch H2O)(Pa)
2.5
→ Static Pressure
→ Static Pressure
700
2.0
PWM Duty Cycle 100%
800
3.0 2.5
(Pa)
(inch H2O)(Pa)
DC 48V
600
2.5
PWM Duty Cycle 100% 600
2.0
PWM Duty Cycle 100%
500
→ Static Pressure
→ Static Pressure
60 V
400 1.5 300 1.0 50%
200 0.5
0
2.0
48 V 400 1.5
1.0 200
0%
0
0.5 0
10
20
1.0 30
40
1.5 50
2.0 (m3/min)
36 V 300
0.5
100
500
100
0
0
70 (CFM)
60
0
0.5 10
1.0
20
30
40
1.5 50
2.0 (m3/min) 60
→ Air Flow
→ Air Flow
9W1TM48P4H01
9W1TM48P4H01
70
(CFM)
■ PWM Duty - Speed Characteristics Example
Voltage:48V DC 8000
Voltage:48V DC
PWM Frequency:25kHz
8000
7400min-1
7000
PWM Frequency:25kHz
7000
6400min-1
5000 4000
Speed(min )
6000 -1
Speed(min-1)
6000
Nominal
3000
5000 4000 3000
2000
2000
1000
1000
0
100
Nominal
0
100
PWM Duty Cycle(%)
PWM Duty Cycle(%)
9W1TM48P4G01
9W1TM48P4H01
100mm×25mm
φ
■ PWM Input Signal Example Input Signal Wave Form
VIH=4.75V to 5.25V VIL=0V to 0.4V
VIH
T1 T ×100 1 PWM Frequency 25(kHz)= T PWM Duty Cycle(%)=
Source Current : 2mA Max. at control voltage 0V
VIL
Sink Current : 1mA Max. at control voltage 5.25V
T1
Control Terminal Voltage : 10V Max. (Open Circuit) When the control lead wire is no connecting, the speed is the same speed as at 100% of PWM cycle.
T
This fan speed should be controlled by PWM input signal of either TTL input or open collector, drain input.
■ Connection Schematic + ○
Inside of DC fan
DC fan input voltage
PWM Input Signal Control Isource Isink
− ○
■ Specifications for Pulse Sensors Output circuit : Open collector VCE=+60V MAX Ic=10mA MAX[VOL=VCE(SAT)=0.8V MAX]
Inside of DC fan + ○
Sensor
Pull-up resistor +60V MAX
Ic=10mA MAX
Sensor output − ○
Output waveform (Need pull-up resistor) T1∼4≒(1/4)T0
In case of steady running (One revolution)
N=Fan speed(min-1)
T0 T1 VOH VOL 0V
T2
T1∼4≒(1/4)T0=60/4N(sec)
T3
T4
■ Dimensions (unit : mm) 6± 0 .3
Air Flow Direction
Fan
Rotating Direction
Lead Wire AWG26 UL1007
∅5
25±1 18.5±1
∅72±1
8.5±0.5
∅74±1
∅100±1
° ±1 ° 60
+30 300 0
Air Flow Direction
0.5 0± ∅7
5±1 (1)
(E 1° °± 90
.6±0.5 ∅116 1 28± ∅1
Inlet nozzle (Model No.:109-1080)
3-M4
50.5±1
ac h) 4-
)
3 4.
∅
4.8
5 0.
±
(R
Inlet nozzle : Nozzle mounted in fan inlet side to adjust the flow of introduced air
■ Reference dimension of mounting holes and vent opening (unit : mm) Inlet nozzle side 4-∅4 .5
Fan side ∅5
∅1
0°
6± 0
.5
16.
12
6± 0.5 6±0 .5
∅10
120°
3-∅ 4.5
12
0°
(∅72)
Inret nozzle
(27)
Inlet nozzle
Fan
(5)
(1.15)
■ Referance diagram for mounting
Fan The screw length is 5mm less or equal from fan edge side.
Notice ●The products shown in the catalog are subject to Japanese Export Control Law. Diversion contrary to the law of exporting country is prohibited. ●To protect against electrolytic corrosion that may occur in locations with strong electromagnetic noise, we provide fans that are unaffected by electrolytic corrosion. 1-15-1, Kita-otsuka, Toshima-ku,Tokyo 170-8451, Japan. PHONE :+ 81 3 3917 5151 Home Page:http//www.sanyodenki.co.jp
CATALOG NO. 919-1 ‘10.02
