500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
POWEREST Texas Instruments Power Estimation Tool (PET) visit Texas Instruments
CS48540-CQZR Cirrus Logic Digital Signal Processor, 32-Bit Size, 0-Ext Bit, 30MHz, PQFP48, 7 X 7 MM, 1.40 MM HEIGHT, LQFP-48 visit Digikey Buy
CS47024C-DQZ Cirrus Logic Digital Signal Processor, 0-Ext Bit, 24.576MHz, CMOS, PQFP100, 14 X 14 MM, 1.40 MM HEIGHT, LEAD FREE, MS-026, LQFP-100 visit Digikey Buy
CS47048C-CQZ Cirrus Logic Digital Signal Processor, 0-Ext Bit, 24.576MHz, CMOS, PQFP100, 14 X 14 MM, 1.40 MM HEIGHT, LEAD FREE, MS-026, LQFP-100 visit Digikey Buy

low+power+4+bit+c+mos+counter

Catalog Datasheet MFG & Type PDF Document Tags

DEMOQE128 lcd

Abstract: S08QG8 MC9S08QE32/16 · DEMOQE128 demo board · MC9S08QE32 daughter card DEMO9S08QE8 $69 MC9S08QE8/4 · , $10 MC9S08QE32/16 · MC9S08QE32 daughter card DC9S08QE8 $10 MC9S08QE8/4 · MC9S08QE8 daughter card S08QB DEMO9S08QB8 $69 MC9S08QB8/4 · DEMOQE128 demo board · MC9S08QB8 daughter card DC9S08QB8 $10 MC9S08QB8/4 · MC9S08QB8 daughter card S08LL DEMO9S08LL16 $69 , module S08QG DEMO9S08QG8 $50 MC9S08QG8/4 TWR-S08LL64 · DEMO9S08QG8 demo board S08QA
Freescale Semiconductor
Original
CF51QE128 S08QG8 RS08KA RS08KA2 DEMOQE128 lcd DEMO9RS08LE4 DEMO9RS08KA2 DC9S08QE128 S08QE CF51QE64 CF51QE32 S08QE128

12 bit ADC

Abstract: . 7-101 +2.7V, Low-Power, 4-Channel, Single-Ended or 2-Channel Differential, Serial 8-Bit A D C .7-101 +5V, Low-Power, 8-Channel Single-Ended/4-Channel Differential, Serial 8-Bit A D C .7-121 +5V, Low-Power, 4-Channel Single-Ended/2-Channel Differential, Serial 8-Bit A D C , . 7-217 +2.7V to +3.6V, Low-Power, 4-Channel, Serial 12-Bit ADC with Internal Reference. 7-229 +2.7V to +5.25V, Low-Power, 4-Channel, Serial 12-Bit ADC in QSOP-16 Package
-
OCR Scan
12 bit ADC MAX115 MAX116 MAX125 MAX126 MAX146 MAX149

op 847

Abstract: op amp with enable pin /I 4 /J X I A 1 _ Video P roducts/M gh-S peed A m p lifiers Video Products/High-Speed , . 8-31 350MHz: 120mW, 4-Channel Video Multiplexer/Amplifier , . 8-31 250MHz, 120mW, 4-Channel Video Multiplexer/Amplifier. 8-47 , . 8-129 * High-Speed, 4-Channel, Low-Power, Unity-Gain-Stable Video Multiplexer/Amplifier , . 8-129 * High-Speed, 4-Channel, Low-Power, Video Multiplexer/Amplifier with +2V/V Fixed Gain
-
OCR Scan
op 847 op amp with enable pin MAX4012 MAX4014 MAX4016 MAX4017 MAX4018 MAX4019

TN-46-15

Abstract: DDR SDRAM SDRAM Initialization Steps Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 Step , DDR SDRAM. Figure 1 on page 3 and Figure 2 on page 4 highlight the data clocking differences between , : 09005aef82574a21 TN4615.fm - Rev. A 1/22/07 EN 4 Micron Technology, Inc., reserves the right to change , Array 1/4 Array 1/8 Array 1/16 Array Current (uA) 200 150 100 50 0 -40 -30 , the array. PASR can be enabled by setting bits 0­2. These bits are shown in Figure 4 on page 6
Micron Technology
Original
TN-46-15 DDR SDRAM pasr 82574934/S

MAX196

Abstract: MAX198 .7-9* 3V, 8-Bit, 4-Channel, Low-Power 5V, 8-Bit, 4-Channel, Low-Power ADC , . 7-115* +2.7V, 4-Channel, 8-Bit ADC with Serial Interface , .7-117* +5V, 4-Channel, 8-Bit ADC with Serial Interface , . 7-227 2.7V, Low-Power, 4-Channel, Serial 12-Bit ADC
-
OCR Scan
MAX196 MAX198 MAX104 MAX113 MAX117 MAX118 MAX147 MAX148

a7727

Abstract: A773* Transistor .15 Figures 1 2 3 4 5 6 7 8 9 10 Simulation Model Components , 2 3 4 5 Related Intel Documents , characteristics of the SDRAM DIMM, is used to model the nets (TL-3, TL-4, TL-5, TL-6) of the DIMMs. Based on all , Figure 1. Simulation Model Components TL-4 TL-1 TL-2 TL-3 TL-5 SE Board 82443BX IBIS , topology routing for each signal is defined in the PC SDRAM Unbuffered DIMM specification. Figure 4 shows
Intel
Original
440BX A7728-01 a7727 A773* Transistor A7727-01 A773 aa643

82443BX Northbridge

Abstract: pin diagram i3 processor . 56 Figures 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 4 , . 55 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 , Voltage: V_3S 20 9 Voltage: V_3 16 Voltage: V_5 3 Voltage: VCCAGP 4 Voltage: V_CPUPU 1 Voltage: V_CLK 1 ITP/JTAG 9 Module ID 4 Ground 37 Total 10 , Module 3.1.3 AGP Signals Table 4 provides descriptions of the AGP interface signals. Table 4
Intel
Original
82443BX Northbridge pin diagram i3 processor pin diagram for core i3 processor PIIX4E PENTIUM PROCESSOR MOBILE MODULE EM500 256-K 66-MH

maa 503

Abstract: intel power supply 450 watt circuit diagram ) in question. 4. When returning a Kontron unit. Ensure that the Board is packed in the original box , . 55 Figures 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 4 Low-Power , . 55 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 , Voltage: VCCAGP 4 Voltage: V_CPUPU 1 Voltage: V_CLK 1 ITP/JTAG 9 Module ID 4 , ® III Processor AGP Signals Table 4 provides descriptions of the AGP interface signals. Table 4
Kontron
Original
CISPR22 maa 503 intel power supply 450 watt circuit diagram pentium III 686 socket 7 pentium 686 Pentium "Voltage Regulator Module" 82371AB 700MH 73/23/EEC 89/336/EEC 40/DEHO

TX49xx

Abstract: toshiba psram . 20 4 7.1 Appendix A . , performs these self-refresh functions, thus making refresh transparent to the system (Fig. 3 and Fig. 4). , diagram for Pseudo-Static RAM Refresh Operation. Fig. 4. Timing diagram for Pseudo-Static RAM , RAM. 4 In this paper, the PSRAM device chosen, TC51WHM516AXBN, is a pin compatible replacement for , , comparing the 32-Mb PSRAM, TC51WHM516AXBN, to the 8-Mb Low-Power SRAM, TC55W800XB. It costs nearly 4 times
Motorola
Original
TMPR4926XB-200 MPC8260UM MPC8260 TX49xx toshiba psram R4000A TX4955 TX49 toshiba memory "part numbers" 01M98657

uart example used in k60

Abstract: AN4447 KQRUG) for more details on these power modes. 1 2 3 4 5 6 7 Introduction , .3 LPM driver class="hl">4 LPM usage in BSP , sequence over again. 4 LPM driver details The LPM driver is included in the MQX BSP to allow , Freescale MQX Low-Power Management, Rev. 0, 01/2012 4 Freescale Semiconductor, Inc. LPM driver details , callback functions occur in the order shown below in Figure 4. 1. First, the sdcard: driver receives the
Freescale Semiconductor
Original
AN4447 TWR-K60N512 uart example used in k60 Freescale Kinetis MCUs Snell EL516

OS1621

Abstract: 2506036017Y0 6 CLKC0 5 38 4 CLKC1 3 CLKT1 2 40 1 39 Pin Configurations A , FB_INC 6 AVDD H FB_INT 26 AGND G 27 5 VDDQ F 28 4 CLK_INC E , GND GND CLKC4 3 CLKC0 GND NB VDDQ NB NB VDDQ NB GND CLKT4 4 CLKC5 GND NB VDDQ , CLOCK DRIVER 4 ICS98UAE877A 7181/2 ICS98UAE877A 1.5V LOW-POWER WIDE-RANGE FREQUENCY CLOCK , true input level and VCP is the complementary input level. 4 Differential cross-point voltage is
Integrated Device Technology
Original
OS1621 2506036017Y0 DDR2-667 MO-205 199707558G

400-pin

Abstract: 400pin connector . 14 1 2 3 4 5 6 7 8 Simulation Model Components , ). 15 1 2 3 4 5 Related Intel Documents , datasheet addendum, Rev 1.0 (order number: 273218) - 82443BX AC and DC Specifications · 4-Clock 66 MHz , , the 400-pin connector is used to model the net (TL-1) and the 400-pin connector model. The 4 , of the SDRAM DIMM, is used to model the nets (TL-3, TL-4, TL-5, TL-6) of DIMM. Based on all the
Intel
Original
400-pin 400pin connector 82371EB A6434-01

54FCT162245

Abstract: IDT7164L85L32B 1, Std-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Low-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 4K x 4, Std-Power 16K CMOS Static RAM 32K x 8
Integrated Device Technology
Original
54FCT162245 IDT7164L85L32B 5962-9576101MSA IDT54FCT244ATEB 54fct16244 IDT7164L70L32B MIL-M-38510 MIL-STD-883 300MIL

A773* Transistor

Abstract: a7723 .15 1 2 3 4 5 6 7 8 SDRAM - Two DIMMs , 2 3 4 5 6 7 8 9 Related Intel Documents , :y] DIMM Pins Pin Function CK[3:0] (4 DCLKs per DIMM) Clock CKE[3:0] CKE[1:0 , be 55 ± 10%. 4. All resistors should be maximum 5% tolerance. 5. Populate the furthest DIMM first , MD[63:0], MECC[7:0] Section Minimum Maximum L0 0 1.0 in. L2
Intel
Original
a7723 A7731 245306 intel 440bx 82443bx host bridge INTEL application notes A7734-01 100-M A7704-01

TSC1021

Abstract: LF351 op-amp application rail-to-rail op-amps 1/4/2 200 2.5 6 3 1 0.3 29 40 -40 125 SOT23-5, SO-8, TSSOP8, SO-14, TSSOP14 1.8 V min. voltage supply, micropower 2/4 220 1.8 6 3/1 , /2/4 1.8 V input/output rail-to-rail low-power op-amps 1/2/4 560 1.8 6 3/1 1.6 0.54 65 27 -40 125 SOT23-5, DIP8, SO-8, TSSOP8, DIP14, SO-14, TSSOP14 TS912/4 High-voltage rail-to-rail CMOS op-amps 2/4 200 2.7 16 10/5/2 1.3 0.4 40 30 -40
STMicroelectronics
Original
TSC1021 LF351 op-amp application RHF484 TL071 op-amp Amplifier sot23-5 TL431 LM311 free SGSTDLINEAR0110 TS1871/2/4 TS912/4 TSV321/358/324 TSV911/2/4 TSV991/2/4

sdram dimm layout

Abstract: AGPset . 15 1 2 3 4 5 6 7 8 SDRAM - 2 DIMMs , 1 2 3 4 5 6 7 8 9 10 Related Intel Documents , /Controller Specification Update 290639 4-Clock 66 MHz 72-Bit ECC Unbuffered SDRAM DIMM Specification , -MHz SO-DIMM Routing Length 2 ­ 9 in. 1.2 ­ 3.94 in. Clocking 4 Clocks 2 Clock Board , . Refer to the 4-Clock 66 MHz 72-Bit ECC Unbuffered SDRAM DIMM Specification for more information. 66
Intel
Original
sdram dimm layout AGPset spdsd12a

op power amplifier

Abstract: P895 . 8-109 1-lnput/4-Output Video Distribution Amplifier. 8-121 1-lnput/4-Output Video Distribution Amplifier
-
OCR Scan
op power amplifier P895 highspeed MAX476 MAX477 MAX496 MAX497 MAX498 MAX499

Bulk Decoupling 430TX

Abstract: Socket-7 296 Data - MESI Cache Protocol Compatible with Large Software Base - MS-DOS*, Windows*, OS/2*, UNIX* 4 , Undershoot Threshold Duration . 63 Figures 1 2 3 4 , . 62 4 Datasheet Low-Power Embedded Pentium® Processor with MMXTM Technology Tables 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Signals , on-chip to meet performance goals. Each cache has a 32-byte line size and is 4-way set associative. Each
Intel
Original
Bulk Decoupling 430TX Socket-7 296 273232 430TX Configuration FV80503 GC80503CSM66166 166-MH 266-MH 82430TX 430TX

heat sensor with fan cooling working

Abstract: FUJIKURA fan .17 Figures 1 2 3 4 5 6 Application Note Heat Pipe Thermal Resistance vs. Airflow , Module Thermal Design Guide Tables 1 2 3 4 5 6 4 Thermal Design Power and Case Temperature , :4) Selectable Address AD Bits (3:0) Thermal Sensor 100 1110 Reserved 010 1010 , Table 4 illustrates that a thermal solution may be needed depending on the system's operating ambient , Guide Table 4. Thermal Resistance vs. System Airflow for Various Thermal Reference Designs ca [°C
Intel
Original
heat sensor with fan cooling working FUJIKURA fan Sanyo Denki dc fan FUJIKURA heat pipe sumitomo water sensor Thermagon

pentium MOTHERBOARD CIRCUIT diagram

Abstract: T40 N03 *, UNIX* 4-Mbyte Pages for Increased TLB Hit Rate IEEE 1149.1 Boundary Scan Advanced Design Features , 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 4 Pentium , 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 , to meet performance goals. Each cache has a 32-byte line size and is 4-way set associative. Each , Pentium processors' MMU contains optional extensions to the architecture that allow 4-Kbyte and 4
Intel
Original
pentium MOTHERBOARD CIRCUIT diagram T40 N03 am24 "pin compatible" intel pentium MMX simd 1997 processor cross reference z02 surface mounted transistor
Showing first 20 results.