SynJet XFlow 30 Cooler 40 W SynJet cooling technology provides the most reliable thermal management solution available. This versatile cooling solution has been developed by Nuventix, for cooling a wide array of devices such as Microprocessors, FPGAs, Network Chips, and LEDs. The XFlow 30 can be used with the reference heat sink or used with a customer designed heat sink for cooling higher power devices. High operating temperature up to 85C Cools up to 40W 100K Hours Lifetime Energy Efficient 1 Specifications Thermal & Acoustic 2 3 4 5 SynJet Setting s-a TDP (W) SPL (dBA) High Performance PWM at 100% duty cycle 1.0 40 38 Electrical 6 6 Current (mA) Current (mA) Voltage Voltage 2 SynJet Setting (VDC) Pavg (VDC) Pavg +/- 10% Imin Iavg Ipeak (mW) +/- 10% Imin Iavg Ipeak (mW) High Performance PWM 5 20 200 400 1.0 12 10 100 200 1.2 at 100% duty cycle Environmental All Settings Min Max Units Conditions Operating Temperature -40 85 C Air temperature surrounding cooler Storage Temperature -40 85 C Air temperature surrounding cooler Storage Altitude 15K m Above sea level Operating Relative Humidity 5 95 % Non-condensing Weight 135 g SynJet with Heatsink Reliability 100K hrs L10 60C Regulatory Compliance CE, UL, FCC Part 15 Class B, RoHS 1 All specifications are typical at 25C unless otherwise stated. 2 The XFLow 30 will operate at maximum cooling level by applying power only or can be used with a PWM control to change the cooling level. 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 2 middle of the heat sink to ambient air measured at the inlet to the SynJet, with a heat source at least 12 cm using 40W 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 40C 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. 4635 Boston Lane Phone: 512-382-8101 Email: info nuventix.com E02 Austin, TX 78735 FAX: 512-382-8100 www.nuventix.com Sept 2010 Mechanical All dimensions are nominal and in mm unless otherwise stated. See product drawings for more detail. SynJet Wire Harness Connector Pinout Pin Symbol Description 1 +VDC Input voltage 5V or 12V depending on model Ground 2 GND Status signal 3 CTRL2 Input for PWM control 4 CTRL1 Part Numbers Part Number Description Notes Use with PWM input to control cooling level SSCCS-IM005-002-D SynJet, XFlow 30, High Performance PWM, 5V, ILD SSCCS-IM012-001-D SynJet, XFlow 30, High Performance PWM, 12V, ILD Use with PWM input to control cooling level HSCCS-CALBL-001 Heatsink, 40 W, Chip Cooler 30, Al, Black WALLS-C4150-001 SynJet Wire Harness, 4 wire, 150 mm length 4635 Boston Lane Phone: 512-382-8101 Email: info nuventix.com E02 Austin, TX 78735 FAX: 512-382-8100 www.nuventix.com Sept 2010 Nuventix reserves the right to make changes to the products or information contained herein without notice. No liability is assumed as a result of their use or applications. For additional information, please contact Nuventix directly.