GAP PAD 1000SF Search Results

GAP PAD 1000SF Result Highlights (1)

Part	ECAD Model	Manufacturer	Description	Download	Buy
TLV71209DBVR		Texas Instruments	300-mA, Sub-Band-Gap Output Voltage, Low-Iq, Low-Dropout Regulator 5-SOT-23 -40 to 125

GAP PAD 1000SF Datasheets Context Search

Catalog Datasheet	MFG & Type	Document Tags	PDF
Untitled Abstract: No abstract text available Text: Gap Pad 1000SF Thermally Conductive, Silicone-Free Gap Filling Material Features and Benefits TYPICAL PROPERTIES OF GAP PAD 1000SF PROPERTY Color • Thermal conductivity: 0.9 W/m-K • No silicone outgassing • No silicone extraction • Reduced tack on one side to aid in	Original	1000SF E1269 1000SF	PDF
Untitled Abstract: No abstract text available Text: Gap Pad 1000SF Thermally Conductive, Silicone-Free Gap Filling Material Features and Benefits TYPICAL PROPERTIES OF GAP PAD 1000SF PROPERTY Color • Thermal conductivity: 0.9 W/m-K • No silicone outgassing • No silicone extraction • Reduced tack on one side to aid in	Original	1000SF E1269 1000SF	PDF
Untitled Abstract: No abstract text available Text: SPDG_Cover_0511 v7.qxp 6/22/2011 12:25 PM Page 2 Thermally Conductive Interface Materials for Cooling Electronic Assemblies Sil-Pad S E L E C T I O N G U I D E SPDG_Cover_0511 v7.qxp 6/22/2011 12:25 PM Page 3 June 2011 All statements, technical information and recommendations herein are based on tests we believe to be reliable, and THE	Original		PDF
LTN20069 Abstract: AN110 LTM4601 Gap Pad 1000sf Wakefield Engineering LTN20069 Text: Application Note 110 May 2007 LTM4601 DC/DC µModule Regulator Thermal Performance Eddie Beville, Jian Yin INTRODUCTION The LTM4601 DC/DC Module regulator is a complete high power density stepdown regulator for up to 12A continuous 14A peak loads. The device is housed in	Original	LTM4601 1000SF LTN20069 an110fa AN110-8 LTN20069 AN110 Gap Pad 1000sf Wakefield Engineering LTN20069	PDF
LTN20069 Abstract: transistor RJp AN110 LTM4601 Text: Application Note 110 May 2007 LTM4601 DC/DC µModuleTM Thermal Performance Eddie Beville, Jian Yin INTRODUCTION analyzed for a worse case temperature rise due to the relatively lower efﬁciency exhibited in these higher input voltage designs. The LTM4601 DC/DC Module is a complete high power	Original	LTM4601 1000SF LTN20069 an110f AN110-8 LTN20069 transistor RJp AN110	PDF
LTM4600 Abstract: 24v 12v 10A regulator AN103 CIS20069 LTM4600EV AN-1038 C9010 Text: Application Note 103 January 2006 LTM4600 DC/DC µModule Thermal Performance Eddie Beville, Jian Yin INTRODUCTION THERMAL MODEL The LTM4600 DC/DC µModule is a complete high power density stepdown regulator for 10A continuous 14A peak loads. The µModule has two voltage options: 20VIN	Original	LTM4600 20VIN LTM4600EV 28VIN LTM4600HVEV 1000SF CIS20069 an103f 24v 12v 10A regulator AN103 CIS20069 AN-1038 C9010	PDF
24v 12v 10A regulator Abstract: 12v 10A regulator LTM4600 AN103 LTM4600EV 24v 10A regulator 1000-SF Text: Application Note 103 January 2006 LTM4600 DC/DC µModule Regulator Thermal Performance Eddie Beville, Jian Yin INTRODUCTION THERMAL MODEL The LTM4600 DC/DC Module regulator is a complete high power density stepdown regulator for 10A continuous 14A peak loads. The device has two voltage options: 20VIN	Original	LTM4600 20VIN LTM4600EV 28VIN LTM4600HVEV effici00 1000SF an103fb 24v 12v 10A regulator 12v 10A regulator AN103 24v 10A regulator 1000-SF	PDF
LTM4600 Abstract: AN103 CIS20069 LTM4600EV Text: Application Note 103 August 2005 LTM4600 DC/DC µModule Thermal Performance Application Note Eddie Beville Introduction The µModule power technology enables very dense power design for 14A peak, and 10A continuous loads in the LTM4600 device. The µModule has two voltage options:	Original	LTM4600 LTM4600EV LTM4600HVEV. 1000SF CIS20069 an103p AN103-8 AN103 CIS20069	PDF