PRODUCT DATASHEET
SynJet® Linear Light Cooler 30W
SynJet cooling technology provides the most reliable thermal
management solution available. This cooler has been developed
by Aavid as a general purpose cooling solution for linear LED arrays.
Cools up to 30W4
L10 of 100K Hours at 60C
Energy Efficient
5 yr Warranty
Small Form Factor
85C Operating Temp
Specifications1
Thermal & Acoustic
SynJet Setting2
Θs-a3
TDP4 (W)
SPL (dBA)5
Wire Connections
Red to +VDC
Black to Ground
Standard
1.0
30
25
Red to +VDC
PWM at 100% duty cycle
Black to Ground
Blue to PWM Signal
Electrical
Current (mA)6
Current (mA)6
Voltage
(VDC)
+/- 10%
Voltage
(VDC)
+/- 10%
SynJet Setting2
Pavg
(mW)
Pavg
(mW)
Imin
Iavg
Ipeak
140
Imin
Iavg
Ipeak
92
Standard
PWM at 100% duty cycle
5
20
70
350
12
10
46
550
Environmental
All Settings
Min
Max
75
Units Conditions
Operating Temperature
-40
-50
Air temperature surrounding cooler
Air temperature surrounding cooler
Above sea level
C
C
m
Storage Temperature
Storage Altitude
85
15K
95
Operating Relative Humidity
Weight
5
%
Non-condensing
125
g
SynJet with heat sink
Reliability
100K
hrs
L10 @ 60C
Regulatory Compliance
RoHS, UL, FCC Part 15 Class B, CE
1 All values are typical at 25ºC unless otherwise stated.
2 The Level Select model should be used for discrete performance settings. Follow the instructions in the Product Design Guide for adjusting settings.
3 Thermal resistance values are given as reference only and are measured in free air without airflow obstructions. Thermal resistance is measured from the bottom
middle of the heat sink to ambient air measured at the inlet to the SynJet, with a heat source at least XXcm2 using the reference heat sink. Actual thermal
performance may vary by application and final product design should be tested to assure proper thermal performance.
4 Thermal Design Power is based on a 30ºC temperature rise of heat sink mounting surface above ambient temperature around cooler.
5 Sound Pressure Level is measured at 1 meter distance per ISO 7779.
6 The SynJet has a time varying current. The current waveform is sinusoidal and the average current (Iavg) is used to calculate the average power consumption
(Pavg) at nominal input voltage (VDC). See the Electrical section in the Product Design Guide for a detailed explanation.
1 Aavid Circle
Laconia, NH 03246
Phone: 1.855.322.2843
www.aavid.com
MKTG-DOC-00215
Revision
A02
March 2018