20W Single Output LED Power supply
20W Single Output LED Power supply
20W Single Output LED Power supply
PLP-20series
PLP-20series
PLP-20seriesFeatures :
Features :
Features :
UniversalAC input / Full range(up to 277VAC)
UniversalAC input / Full range(up to 277VAC)
UniversalAC input / Full range(up to 277VAC)
Protections:short circuit/Over current/Over voltage/Over temperature
Protections:short circuit/Over current/Over voltage/Over temperature
Protections:short circuit/Over current/Over voltage/Over temperature
Cooling by free air convection
Cooling by free air convection
Cooling by free air convection
Built-in constant currentlimiting circuit with level adjustment OCP
Built-in constant currentlimiting circuit with level adjustment OCP
Built-in constant currentlimiting circuit with level adjustment OCP
Built-in active PFC function
Built-in active PFC function
Built-in active PFC function
Classpower unit, no FG
Classpower unit, no FG
Classpower unit, no FG
Class 2 power unit
Class 2 power unit
Class 2 power unit
Small and compact size
Small and compact size
Small and compact size
100% full load burn-in test
100% full load burn-in test
100% full load burn-in test
High reliability,low cost
High reliability,low cost
High reliability,low cost
Suitable for applications of LED lighting
Suitable for applications of LED lighting
Suitable for applications of LED lighting
2 years warranty
2 years warranty
2 years warrantySPECIFICATION
SPECIFICATION
SPECIFICATION
Bauar t gepr u f t
Bauar t gepr u f t
Bauar t gepr u f t
Sicherheit egel ma ge
Sicherheit egel ma ge
Sicherheit egel ma ge
od or s
od or s
od or s
be wacg
be wacg
be wacg
www. tuv. com
www. tuv. com
www. tuv. com
ID 2000000000
ID 2000000000
ID 2000000000
MODEL
MODEL
MODEL
PLP-20-12
PLP-20-12
PLP-20-12
PLP-20-18 PLP-20-24PLP-20-36
PLP-20-18 PLP-20-24PLP-20-36
PLP-20-18 PLP-20-24PLP-20-36
PLP-20-48
PLP-20-48
PLP-20-48
THE DC VOLTAGE
THE DC VOLTAGE
THE DC VOLTAGE
12V
12V
12V
18V
18V
18V
24V
24V
24V
36V
36V
36V
48V
48V
48V
CONSTANT CURRENT REGION Note.59 ~ 12V
CONSTANT CURRENT REGION Note.59 ~ 12V
CONSTANT CURRENT REGION Note.59 ~ 12V
13.5 ~ 18V
13.5 ~ 18V
13.5 ~ 18V
18 ~ 24V
18 ~ 24V
18 ~ 24V
27 ~ 36V
27 ~ 36V
27 ~ 36V
36 ~ 48V
36 ~ 48V
36 ~ 48V
RATED CURRENT CURRENT RANGE
RATED CURRENT CURRENT RANGE
RATED CURRENT CURRENT RANGE
1.6
1.6
1.6
0 ~ 1.6
0 ~ 1.6
0 ~ 1.6
1.1A0.8A0.55A
1.1A0.8A0.55A
1.1A0.8A0.55A
0 ~ 1.1A0 ~ 0.8A0 ~ 0.55 A
0 ~ 1.1A0 ~ 0.8A0 ~ 0.55 A
0 ~ 1.1A0 ~ 0.8A0 ~ 0.55 A
0.42 A
0.42 A
0.42 A
0 ~ 0.42 A
0 ~ 0.42 A
0 ~ 0.42 A
CURRENT ADJ. RANGE of 75% ~ 100%
CURRENT ADJ. RANGE of 75% ~ 100%
CURRENT ADJ. RANGE of 75% ~ 100%
RATED POWER
RATED POWER
RATED POWER
19.2 W
19.2 W
19.2 W
19.8 19.2 W 19.8 W
19.8 19.2 W 19.8 W
19.8 19.2 W 19.8 W
20.2 W
20.2 W
20.2 WOUTPUT
OUTPUT
OUTPUT
RIPPLE & NOISE (max.) Note.22.5 Vp-p
RIPPLE & NOISE (max.) Note.22.5 Vp-p
RIPPLE & NOISE (max.) Note.22.5 Vp-p
VOLTAGE TOLERANCE Note.310%
VOLTAGE TOLERANCE Note.310%
VOLTAGE TOLERANCE Note.310%
3.0 Vp-p3.0Vp-p 3.0 Vp-p
3.0 Vp-p3.0Vp-p 3.0 Vp-p
3.0 Vp-p3.0Vp-p 3.0 Vp-p
3.8 Vp-p
3.8 Vp-p
3.8 Vp-p
LINE REGULATION LOAD REGULATION SETUP, RISE TIME
LINE REGULATION LOAD REGULATION SETUP, RISE TIME
LINE REGULATION LOAD REGULATION SETUP, RISE TIME
3.0%
3.0%
3.0%
10%
10%
10%
500ms / 230VAC2000ms / 115VAC at full load
500ms / 230VAC2000ms / 115VAC at full load
500ms / 230VAC2000ms / 115VAC at full load
VOLTAGE RANGENote.490 ~ 277VAC 127~392VDC
VOLTAGE RANGENote.490 ~ 277VAC 127~392VDC
VOLTAGE RANGENote.490 ~ 277VAC 127~392VDC
FREQUENCY RANGE POWER FACTOR
FREQUENCY RANGE POWER FACTOR
FREQUENCY RANGE POWER FACTOR
TOTAL HARMONIC DISTORTION
TOTAL HARMONIC DISTORTION
TOTAL HARMONIC DISTORTION
47 ~ 63Hz
47 ~ 63Hz
47 ~ 63Hz
PF0.9 at 75~100% load, 115VAC/230VAC;PF0.9 in the 85~100% load 277VAC (please refer to "Power Factor Characteristic" curve) THD< 20% when output loading75% at 115VAC/230VAC input and output loading75% at 277VAC input
PF0.9 at 75~100% load, 115VAC/230VAC;PF0.9 in the 85~100% load 277VAC (please refer to "Power Factor Characteristic" curve) THD< 20% when output loading75% at 115VAC/230VAC input and output loading75% at 277VAC input
PF0.9 at 75~100% load, 115VAC/230VAC;PF0.9 in the 85~100% load 277VAC (please refer to "Power Factor Characteristic" curve) THD< 20% when output loading75% at 115VAC/230VAC input and output loading75% at 277VAC input
EFFICIENCY(Typ.)
EFFICIENCY(Typ.)
EFFICIENCY(Typ.)
80%
80%
80%
81%82%83%83.5%
81%82%83%83.5%
81%82%83%83.5%
INPUT
INPUT
INPUT
AC POWER
AC POWER
AC POWER
INRUSH CURRENT(Typ.) MAX. No. of the systems of power in the 16TH
INRUSH CURRENT(Typ.) MAX. No. of the systems of power in the 16TH
INRUSH CURRENT(Typ.) MAX. No. of the systems of power in the 16TH
CIRCUIT BREAKER
CIRCUIT BREAKER
CIRCUIT BREAKER
THE LEAKAGE CURRENT
THE LEAKAGE CURRENT
The LEAKAGE of CURRENTOVER of the CURRENT Note.5
ON the CURRENT Note.5
ON the CURRENT Note.5SHORT CIRCUIT
SHORT CIRCUIT
SHORT CIRCUIT
0.4 A/115VAC 0.2 A/230VAC 0.15 A/277VAC
0.4 A/115VAC 0.2 A/230VAC 0.15 A/277VAC
0.4 A/115VAC 0.2 A/230VAC 0.15 A/277VAC
COLD start 25A(twidth=60 measured at 50% Ipeak) at 230VAC
COLD start 25A(twidth=60 measured at 50% Ipeak) at 230VAC
COLD start 25A(twidth=60 measured at 50% Ipeak) at 230VAC92 units (circuit breaker type (B) / 98 units (circuit breaker type C) 230VAC
92 units (circuit breaker type (B) / 98 units (circuit breaker type C) 230VAC
92 units (circuit breaker type (B) / 98 units (circuit breaker type C) in 230VAC0.5mA / 240VAC
0.5 mA / 240VAC
0.5 mA / 240VAC
95 ~ 110%
95 ~ 110%
95 ~ 110%
Protection type : Constant current limiting, recovers automatically after fault condition is removed
Protection type : Constant current limiting, recovers automatically after fault condition is removed
Protection type : Constant current limiting, recovers automatically after fault condition is removed
Hiccup mode, recovers automatically after fault condition is removed.
Hiccup mode, recovers automatically after fault condition is removed.
Hiccup mode, recovers automatically after fault condition is removed.
PROTECTION
PROTECTION
PROTECTION
14 ~ 16V
14 ~ 16V
14 ~ 16V
19 ~ 22V 27 ~ 34V41 ~ 46V54 ~ 60V
19 ~ 22V 27 ~ 34V41 ~ 46V54 ~ 60V
19 ~ 22V 27 ~ 34V41 ~ 46V54 ~ 60VENVIRONMENT
ENVIRONMENT
ENVIRONMENTSAFETY & EMC
SAFETY AND EMC
SAFETY AND EMC
OTHER
OTHER
OTHER
OVER VOLTAGE
OVER VOLTAGE
MOST OF VOLTAGEOVER TEMPERATURE WORKING TEMP. WORKING HUMIDITY
THE OVER TEMPERATURE WORKING TEMP. WORKING HUMIDITY
THE OVER TEMPERATURE WORKING TEMP. WORKING HUMIDITY
STORAGE TEMP., THE HUMIDITY TEMP. COEFFICIENT VIBRATION
STORAGE TEMP., THE HUMIDITY TEMP. COEFFICIENT VIBRATION
STORAGE TEMP., THE HUMIDITY TEMP. COEFFICIENT VIBRATION
SAFETY STANDARDS VOLTAGE RESISTANCE ISOLATION RESISTANCE EMC EMISSION
SAFETY STANDARDS VOLTAGE RESISTANCE ISOLATION RESISTANCE EMC EMISSION
SAFETY STANDARDS VOLTAGE RESISTANCE ISOLATION RESISTANCE EMC EMISSION
EMC IMMUNITY MTBF DIMENSION
EMC IMMUNITY MTBF DIMENSION
EMC IMMUNITY MTBF DIMENSION
PACKAGING
PACKAGING
PACKAGING
Protection type : Shut off o/p voltage, clamping by zener diode
Protection type : Shut off o/p voltage, clamping by zener diode
Protection type : Shut off o/p voltage, clamping by zener diode
Shut down o/p voltage, recovers automatically after temperature goes down
Shut down o/p voltage, recovers automatically after temperature goes down
Shut down o/p voltage, recovers automatically after temperature goes down
-30 ~ +60 (Refer to "Reduction Curve")
-30 ~ +60 (Refer to "Reduction Curve")
-30 ~ +60 (Refer to "Reduction Curve")
20 ~ 90% RH non-condensing
20 ~ 90% RH non-condensing
20 ~ 90% RH non-condensing
-40 ~ +80, 10 ~ 95% RH
-40 ~ +80, 10 ~ 95% RH
-40 ~ +80, 10 ~ 95% RH
0.06%/ (0 ~ 50)
0.06%/ (0 ~ 50)
0.06%/ (0 ~ 50)
10 ~ 500Hz, 2G 10min./1cycle, period for 60 min. each along X, y, Z axes
10 ~ 500Hz, 2G 10min./1cycle, period for 60 min. each along X, y, Z axes
10 ~ 500Hz, 2G 10min./1cycle, period for 60 min. each along X, y, Z axes
TUV EN61347-1, EN61347-2-13, GB19510.14, GB19510.1, UL8750, CSA C22.2 No. 250.0-08 approved
TUV EN61347-1, EN61347-2-13, GB19510.14, GB19510.1, UL8750, CSA C22.2 No. 250.0-08 approved
TUV EN61347-1, EN61347-2-13, GB19510.14, GB19510.1, UL8750, CSA C22.2 No. 250.0-08 approved
I/P-O/P:3.75 KVAC
I/P-O/P:3.75 KVAC
I/P-O/P:3.75 KVAC
I/P-O/P:100M Ohms/500VDC / 25/ 70% RH
I/P-O/P:100M Ohms/500VDC / 25/ 70% RH
I/P-O/P:100M Ohms/500VDC / 25/ 70% RH
Compliance to EN55015, GB17743, GB17625.1, EN61000-3-2 Class C(75% load); EN61000-3-3
Compliance to EN55015, GB17743, GB17625.1, EN61000-3-2 Class C(75% load); EN61000-3-3
Compliance to EN55015, GB17743, GB17625.1, EN61000-3-2 Class C(75% load); EN61000-3-3
Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level,criteria A
Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level,criteria A
Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level,criteria A
643.6 Khrs min.MIL-HDBK-217F (25)
643.6 Khrs min.MIL-HDBK-217F (25)
643.6 Khrs min.MIL-HDBK-217F (25)
140*32*22(L*W*H)
140*32*22(L*W*H)
140*32*22(L*W*H)
0.12 kg;60pcs/9.2 kg/0.62 CUFT
0.12 kg;60pcs/9.2 kg/0.62 CUFT
0.12 kg;60pcs/9.2 kg/0.62 CUFTNOTE
NOTE
NOTE
1. All the parameters are NOT speciallymentioned are measured at 230vac input, ratedload and 25 ° C ambient temperature.
1. All the parameters are NOT speciallymentioned are measured at 230vac input, ratedload and 25 ° C ambient temperature.
1. All the parameters are NOT speciallymentioned are measured at 230vac input, ratedload and 25 ° C ambient temperature.
2. Curly and noiseare measured at 20 mhz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1 uf & 47uf parallel capacitor.
2. Curly and noiseare measured at 20 mhz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1 uf & 47uf parallel capacitor.
2. Curly and noiseare measured at 20 mhz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1 uf & 47uf parallel capacitor.
3. Tolerance : includes setup tolerance, line regulation and load regulation.
3. Tolerance : includes setup tolerance, line regulation and load regulation.
3. Tolerance : includes setup tolerance, line regulation and load regulation.
4. Deratingmay be necessary underlow input voltage,please checkthe feature static for more details.
4. Deratingmay be necessary underlow input voltage,please checkthe feature static for more details.
4. Deratingmay be necessary underlow input voltage,please checkthe feature static for more details.
5. Please refer to "DRIVING METHODS OF LED MODULE".
5. Please refer to "DRIVING METHODS OF LED MODULE".
5. Please refer to "DRIVING METHODS OF LED MODULE".
6. The supply is considered a component which will be installedinto a final computer. All EMC testing has been executed for mountingthe unit on a 360mm*360mm metalplate with 1mm of thickness. The final equipment must be re-confirmed that still meets EMC directives. For information on how to perform these EMC tests, please refer to "EMI testingof component powersupplies." (available in http://www.meanwell.com)
6. The supply is considered a component which will be installedinto a final computer. All EMC testing has been executed for mountingthe unit on a 360mm*360mm metalplate with 1mm of thickness. The final equipment must be re-confirmed that still meets EMC directives. For information on how to perform these EMC tests, please refer to "EMI testingof component powersupplies." (available in http://www.meanwell.com)
6. The supply is considered a component which will be installedinto a final computer. All EMC testing has been executed for mountingthe unit on a 360mm*360mm metalplate with 1mm of thickness. The final equipment must be re-confirmed that still meets EMC directives. For information on how to perform these EMC tests, please refer to "EMI testingof component powersupplies." (available in http://www.meanwell.com)
7. Direct connection to LEDs is suggested, but is not suitable for the use of additionaldrivers.
7. Direct connection to LEDs is suggested, but is not suitable for the use of additionaldrivers.
7. Direct connection to LEDs is suggested, but is not suitable for the use of additionaldrivers.
8. To comply with the requirements of the latestErP regulation of the luminaires, LED supply you canonly be used behinda switch without permanently connected to the electrical grid.
8. To comply with the requirements of the latestErP regulation of the luminaires, LED supply you canonly be used behinda switch without permanently connected to the electrical grid.
8. To comply with the requirements of the latestErP regulation of the luminaires, LED supply you canonly be used behinda switch without permanently connected to the electrical grid.
File name:PLP-20-SPEC2016-01-21
File name:PLP-20-SPEC2016-01-21
File name:PLP-20-SPEC2016-01-21