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    Supercool

    Abstract: Supercool BOX 27 401 20 Supercool BOX-27
    Text: Thermoelectric solutions Our standard range is wide enough to satisfy 8 out of 10 customers Custom design and engineering 4-5 Thermoelectric Systems Applications 6 Air Cooling & Heating 8-9 Accessories Supercool worldwide 7 Direct Cooling & Heating 10-11 Power supplies


    Original     		PDF

    Supercool LK 03

    Abstract: 433/Supercool LK 03 Supercool PR-59 Supercool BOX 27 DA AAC050 tunnel sensor thermoelectric generator F-09225-24-2 LA-160-24-02
    Text: Thermoelectric solutions Our standard range is wide enough to satisfy 8 out of 10 customers Custom design and engineering 4-5 Thermoelectric Systems Applications 6 Air Cooling & Heating 8-9 Accessories Supercool worldwide 7 Direct Cooling & Heating 10-11 Power supplies


    Original     		PDF

    Supercool

    Abstract: AA-100-24-22 peltier power generation
    Text: PowerCool - The hottest new range in the world of thermoelectrics. Thanks to advances in aluminium extrusion and Typical applications include: improved air distribution, Supercool’s innovative • Air conditioning in electronic cabinets PowerCool range is set to create an industry bench-


    Original     		AA-100-24-22- Supercool AA-100-24-22 peltier power generation PDF

    PE-127-14-11

    Abstract: Supercool PE-127-10-25 PF-127-14-25-S PE-127-14-15 PE-127-14-25 PE-071-14-15 Generator Seebeck PE-031-07-10 Supercool PF-127-10-13
    Text: There are 120 reasons to choose a standard thermoelectric module from Supercool. But one is enough We Scandinavians don’t tend to sing our own praises. So refrigerator running on our TE-modules will be about 3-4°C when we say we supply the best thermoelectric modules on


    Original     		PDF

    circuit diagram of heat sensor with fan cooling

    Abstract: POWER SUPPLY BOARD 94V0 24V 500W dc motor speed control circuit diagram circuit diagram dc 12 to ac 220 500w ELECTRIC MOTOR 24V 500W SK 3352500 3110000 rittal rittal 3114.100 brushless DC motor 200w 24v to 48v dc fan from brushless
    Text: Section 5_200-257 4/7/04 Product Diversity • 9:03 AM Page 21 Knowledge Transfer ■ MPS Expertise ■ Globalization ■ Integrative Thinking Supercool, Hot Swappable RiCool System Blower Cool Solutions . . . 220 Section 5_200-257 4/7/04 9:03 AM Page 22 19 Plants, 40 Subsidiaries


    Original     		220cfm circuit diagram of heat sensor with fan cooling POWER SUPPLY BOARD 94V0 24V 500W dc motor speed control circuit diagram circuit diagram dc 12 to ac 220 500w ELECTRIC MOTOR 24V 500W SK 3352500 3110000 rittal rittal 3114.100 brushless DC motor 200w 24v to 48v dc fan from brushless PDF

    Supercool

    Abstract: PE-127-14-15 PE-127-14-11 PE-241-10-25 PF-127-14-25-S PE-131-10-13 PE-127-14-25 PELTIER EFFECT peltier 75 watts Supercool PF-071-10-13
    Text: Thermoelectric modules There are 120 reasons to choose a standard thermoelectric module from Supercool. But one is enough We Scandinavians don’t tend to sing our own praises. So refrigerator running on our TE-modules will be about 3-4°C when we say we supply the best thermoelectric modules on


    Original     		PDF

    PE-127-14-11

    Abstract: Supercool PE-127-14-15-S-UK PE-127-14-11-S PE-127-14-15 PE-127-10-13 PE-131-10-13 PE-131-10-13-S-UK PE-127-14-11-S-UK Supercool pe-127-14-15
    Text: 1 2 3 4 5 6 7 I max U max Pc max ∆T max A B H 8 L Wire At hot side temperature Th=25°C / 298K A Bu0.2 Hu0.02 A B Au0.2 i 0.04 A r 0.02 Part nr: [A] [VDC] [W] [°C] [mm] [mm] [mm] PE-127-10-13-S-UK 3,9 16,4 37,2 70 30 30 3,6 [mm] AWG 200 24 PE-127-14-11-S-UK


    Original     		PE-127-14-15-S-UK PE-127-14-11-S-UK PE-131-10-13-S-UK PE-127-10-13-S-UK S-40120 PE-127-14-11 Supercool PE-127-14-15-S-UK PE-127-14-11-S PE-127-14-15 PE-127-10-13 PE-131-10-13 PE-131-10-13-S-UK PE-127-14-11-S-UK Supercool pe-127-14-15 PDF

    PE-031-10-20-UK

    Abstract: PE-127-14-15 PE-127-14-11 PE-063-08-15 PE-127-10-13 PE-071-10-13 Supercool pe-127-14-15 Supercool PE-031-08-15 PE-031-10-13
    Text: 1 2 3 4 5 6 I max 7 U max Pc max ∆T max A B H 8 L Wire At hot side temperature Th=25°C / 298K A Hu0.02 Bu0.2 A B Au0.2 i 0.04 A r 0.02 Warm side. C r 0.02 Cold side Part nr: [A] [VDC] [W] [°C] [mm] [mm] [mm] 2.2 2.1 2.9 74 9 9 3.8 PE-017-08-15-UK 8.4


    Original     		PE-017-08-15-UK PE-017-14-11-UK PE-031-08-15-UK PE-031-10-13-UK PE-031-10-20-UK PE-031-20-25-UK PE-063-08-15-UK PE-063-10-13-UK PE-071-08-15-UK S-40120 PE-031-10-20-UK PE-127-14-15 PE-127-14-11 PE-063-08-15 PE-127-10-13 PE-071-10-13 Supercool pe-127-14-15 Supercool PE-031-08-15 PE-031-10-13 PDF

    Supercool

    Abstract: Supercool BOX-27 9138B 27681 Supercool AB box 27 40120
    Text: Specifica tion: Ta=32°C Code: Description: Heat t ransfer, cold side: Heat t ransfer, warm s ide: Cascade: Cooling pow er: [W] Voltage, nomi nal: [VDC] TEM Voltage: [VDC] TEM Current: [A] Fan(s ), c old si de: Fan(s ), w ar m side: Temperature contr oller, sensor:


    Original     		S-40120 AA-033-12-22-00-00 Supercool Supercool BOX-27 9138B 27681 Supercool AB box 27 40120 PDF

    Supercool

    Abstract: Supercool BOX-27 Supercool 25
    Text: Specifica tion: Ta=32°C Heat t ransfer , cold side: Heat t ransfer , w arm s ide: Cascade: Cooling pow er: [W] Voltage, nomi nal: [VDC] TEM Volt age: [VDC] TEM Current : [A] Fan(s ), c old si de: Fan(s ), w ar m side: Temperature cont roller, sens or: Temperature cont rol set tings, tri m options:


    Original     		S-40120 AA-026-12-22-00-00 Supercool Supercool BOX-27 Supercool 25 PDF

    PE-032-14-15-RH-UK

    Abstract: No abstract text available
    Text: 1 2 3 4 5 6 Hu0.02 D d d2 8 H L [mm] 3.9 [mm] 200 At hot side temperature Th=25°C / 298K Part nr: [A] [VDC] [W] [°C] [mm] [mm] [mm] PE-032-14-15-RH-UK 6 4.0 15 74 55 27 44 Pc max = Cooling power at ∆T = 0 and I = I max. ∆T max = Temperature difference at I = I max and Pc = 0.


    Original     		PE-032-14-15-RH-UK S-40120 truktion\Komponent\TEM\PE-032-14-15-RH-UK PE-032-14-15-RH-UK PDF

    Supercool

    Abstract: PE-192-1420-1118 PE-190-1010-1212-UK PE-190-1010-1212
    Text: 1 2 3 4 5 6 7 I max U max Pc max ∆T max Rac A B H 8 L Wire At hot side temperature Th=25°C / 298K Hu0.02 Bu0.2 A A B Au0.2 i 0.04 A r 0.02 Hot side. C Part nr: [A] [VDC] [W] [°C] [Ohm] [mm] [mm] PE-190-1010-1212-UK 2.8 15.7 16.4 87 4.78 30 30 PE-192-1420-1118-UK


    Original     		PE-190-1010-1212-UK PE-192-1420-1118-UK S-40120 Supercool PE-192-1420-1118 PE-190-1010-1212-UK PE-190-1010-1212 PDF

    Supercool PF-127-10-13

    Abstract: UL1180 Supercool PF-071-14-15 27681 Supercool BOX-27 Supercool PF-071-10-13
    Text: 1 2 3 4 5 6 7 I max U max Pc max ∆T max RAC A B H [mm] [mm] 30 30 40 30 30 40 8 L Wire [mm] [mm] AWG 3,9 3,6 3,9 200 200 300 22 24 22 At hot side temperature Th=25°C / 298K A Hu0.02 Bu0.02 Part nr: [A] [VDC] [W] [°C] PF-071-14-15-UK PF-127-10-13-UK PF-127-14-15-UK


    Original     		PF-071-14-15-UK PF-127-10-13-UK PF-127-14-15-UK S-40120 Supercool PF-127-10-13 UL1180 Supercool PF-071-14-15 27681 Supercool BOX-27 Supercool PF-071-10-13 PDF

    fixed point fir filter on matlab

    Abstract: matlab FIR filter matlaB simulink design FIR Filter matlab simulink Design Filter using simulink in matlab ISPVM fixed point matlab code FIR filter matlaB design code matlab simulink
    Text: DSP Floating Point to Fixed Point Conversion Tutorial Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 November 2008 Copyright Copyright 2008 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		PDF

    ISPGDS

    Abstract: LeonardoSpectrum
    Text: ispLEVER/Mentor Graphics Precision RTL Synthesis Release Notes Version 2004c.1450OEM_Lattice Technical Support Line: 1-800-LATTICE or 408 826-6002 Web Update: To view the most current version of this document, go to www.latticesemi.com. LEVER-RN 4.2 SP1_PRECISION


    Original     		2004c 1450OEM 1-800-LATTICE ISPGDS LeonardoSpectrum PDF

    matlab simulink

    Abstract: color space conversion matlab 0.299 0.587 0.114
    Text: DSP: Using Upsampling and Downsampling for Color Space Conversion Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 November 2008 Copyright Copyright 2008 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: Release Notes for ispLEVER 8.1 Welcome to ispLEVER , the complete design environment for Lattice Semiconductor FPGAs. This version of ispLEVER adds a variety of enhancements to make designing for Lattice Semiconductor programmable devices easier than ever. The design tools also include support for the latest


    Original     		PDF

    calculator

    Abstract: design a simple calculator calculator project
    Text: Power Calculator Introductory Guide Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 April 2008 Copyright Copyright 2008 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		PDF

    LC4256V-10T100I

    Abstract: LC4256V MUX4TO1 electronic circuit project
    Text: HDL Design with Precision RTL Synthesis: CPLD Flow Tutorial Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 December 2005 Copyright Copyright 2005 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: Reveal Troubleshooting Guide This document describes the design restrictions for using on-chip debug. HDL Language Restrictions The following features are valid in the VHDL and Verilog languages but are not supported in Reveal Inserter when you use the RTL flow:


    Original     		PDF

    Supercool

    Abstract: peltier SI2305 TEC H bridge PWM Regulator peltier wheatstone bridge ntc 10k 10% D5 CDRH6D28 a 1757 transistor MAX4122
    Text: Maxim/Dallas > App Notes > FIBER-OPTIC CIRCUITS SENSOR SIGNAL CONDITIONERS TEMPERATURE SENSORS and THERMAL MANAGEMENT Keywords: PWM, temperature controller, thermoelectric cooler, TEC Sep 27, 2002 APPLICATION NOTE 1757 HFAN-08.2.1: PWM Temperature Controller for Thermoelectric


    Original     		HFAN-08 com/an1757 MAX1637: MAX4250: AN1757, APP1757, Appnote1757, Supercool peltier SI2305 TEC H bridge PWM Regulator peltier wheatstone bridge ntc 10k 10% D5 CDRH6D28 a 1757 transistor MAX4122 PDF

    ECP2L

    Abstract: riviera pro riviera Lattice Semiconductor
    Text: Simulating Designs for Lattice FPGA Devices Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 May 2007 Copyright Copyright 2007 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		vital2000 vital2000 /vlib/vital2000/vital2000 ECP2L riviera pro riviera Lattice Semiconductor PDF

    combinational logic circuit project

    Abstract: LCMXO1200 FTBGA256 ispLEVER project Navigator route place isplever starter user guide
    Text: Synthesis Data Flow Tutorial Lattice Semiconductor Corporation 5555 NE Moore Court Hillsboro, OR 97124 503 268-8000 November 2008 Copyright Copyright 2008 Lattice Semiconductor Corporation. This document may not, in whole or part, be copied, photocopied,


    Original     		PDF

    150-302-87001

    Abstract: M/vogt 28949 Supercool BOX-27 t05c Supercool BOX 27 401 20 Supercool PR-59 F 54179 S/BIP/SCB345100/B/30/DSCC 93073
    Text: TII L£K M I S T O R S P l i C I 1* I C AT I ON 1-50- 472- 85001/ ^ 1 5 0 - 3 0 2 - 8 7 0 0 1 1. ELECTRICAL CHARACTERISTICS ¿k>0'C ; RO 10 kilo ohms ±2% 1-1. Zero Power Resistance at 2 5 ^ -i— R25 — 1 4r~72-ki-ie^-ohas—*&% ^t0.5*C 0-101C 1-2. B-Value: H0/25


    OCR Scan     		72--ki-ie 0-101C) H0/25 S860K 150-302-87001 M/vogt 28949 Supercool BOX-27 t05c Supercool BOX 27 401 20 Supercool PR-59 F 54179 S/BIP/SCB345100/B/30/DSCC 93073 PDF