The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTM9005IV-AB#PBF Linear Technology IC SPECIALTY ANALOG CIRCUIT, PBGA204, 22 X 15 MM, 4.32 MM HEIGHT, LEAD FREE, MO-222, LGA-204, Analog IC:Other
LTM4600HVIV#TRPBF Linear Technology IC 17 A SWITCHING REGULATOR, BGA104, 15 X 15 MM, ROHS COMPLIANT, MO-222, LGA-104, Switching Regulator or Controller
LTM2220IV-AA#PBF Linear Technology IC 1-CH 12-BIT PROPRIETARY METHOD ADC, PARALLEL ACCESS, PBCC100, 16 X 16 MM, MO-222, SIPLGA-100, Analog to Digital Converter
LTM9005IV-AA#PBF Linear Technology IC SPECIALTY ANALOG CIRCUIT, PBGA204, 22 X 15 MM, 4.32 MM HEIGHT, LEAD FREE, MO-222, LGA-204, Analog IC:Other
LTM4600HVEV#TRPBF Linear Technology IC 17 A SWITCHING REGULATOR, BGA104, 15 X 15 MM, ROHS COMPLIANT, MO-222, LGA-104, Switching Regulator or Controller
LTM9005CV-AA#PBF Linear Technology IC SPECIALTY ANALOG CIRCUIT, PBGA204, 22 X 15 MM, 4.32 MM HEIGHT, LEAD FREE, MO-222, LGA-204, Analog IC:Other

fee 222-3-2 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
FEE430

Abstract: FEE532 FEE160-2 FEE 160 fee 222-3-2 FEE509 FEE425 FEE 210-3-2 UL-94-V0 PF500
Text: 2,3 FEE 224-3-2 FEE 224-3-3 3 0,85 801 680 1,3 FEE 222-3-2 FEE 222-3-3 3 0,90 536 470 1,1 FEE , Pulse* FEE A TECHNITROL COMPANY FEE 100 - 900 Series Low Cost Power Inductors Inductances de , Therefore: ET = 110 V/Jsec Par conséquent : ET = 1 10 Vfjsec 12 PF500.A (12/98) FEE 100 Series : IPuls^à , maximum • FEE 1X0 Series: Low Cost version (Iron Powder Toroids) • FEE 1X5 Series: High Cost & Compact version (Mpp toroids) available. Please contact us •Série FEE 1X0 : version économique (Tores en


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PDF PF500 FEE430 FEE532 FEE160-2 FEE 160 fee 222-3-2 FEE509 FEE425 FEE 210-3-2 UL-94-V0
fee 222-3-2

Abstract: FEE430 FEE 160 pf500a
Text: é fé re n ce 1 FEE 230-3-2 FEE 224-3-2 FEE 222-3-2 FEE 220-3-2 FEE 212-3-2 FEE 210-3-2 FEE 290-3-2 , A Pulse F E E T E C H N I T R O L C O M P A N Y FEE 100 - 900 Series Low Cost Pow er , = 1 10 Vfjsec 12 PF500.A (12/98) FEE 100 Series Selfs basse puissance grande stabilité , axim um · FEE 1X 0 Series: Low Cost version (Iron Pow der Toroids) · FEE 1X5 Series: High Cost & , Référence Basic Size Style code Part No 1 2 Volume FEE 140 FEE 150 FEE 110 FEE 120 FEE 100 FEE 130 FEE 160


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PDF PF500 fee 222-3-2 FEE430 FEE 160 pf500a
mpp 335 j 2F

Abstract: FSM31 FSM 23 FST232 fst 172 565-2 INDUCTOR FIS130 FIS151 AC DC SMPS schema fee 222-3-2
Text: 2,3 FEE 224-3-2 FEE 224-3-3 3 0,85 801 680 1,3 FEE 222-3-2 FEE 222-3-3 3 0,90 536 470 1,1 FEE , ©ries.11 FEE 1XX Séries.13 FEE 2XX Séries.14 FEE 3XX Séries.15 FEE 4XX - 5XX - 9XX Séries_16-17 FEE 6XX Séries.18-20 FEE 7XX Séries.21-23 FEE 8XX Séries.24 FE 2X Séries.25 FE 3X , ,7 PF500.A (12/98) 3 FIS Series Pulse* FEE A TECHNITROL COMPANY Current Sense Transformers


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PDF PF500 mpp 335 j 2F FSM31 FSM 23 FST232 fst 172 565-2 INDUCTOR FIS130 FIS151 AC DC SMPS schema fee 222-3-2
PF500

Abstract: YL-LJ i7321 magnetic amplifiers
Text: FEE 700 Range : ¡Puls©* ree A TECHNITROL COMPANY MAGNETIC AMPLIFIERS AMPLIFICATEURS MAGNETIQUES , and 7 and 2 and 8 Part Numbering System Codification Ex. FEE 7XX-7-9 Istyie I_Size Code - Volume Series Part Number — Référence de base Table 1 Référence IM (A) ET (Vus) RDC (mil) 0 FEE 710-3-9 4,5/9 120/60 32/8 0,71 FEE 711-3-9 5,5/11 80/40 22 / 5,5 0,71 FEE 712-3-9 7/14 50/25 14/3,5 0,71 FEE 720-4-9 3/6 650 / 325 104 / 26 0,65 FEE 721-4-9 4,5/9 400 / 200 54/13,5 0,71 FEE 722-4-9 7/14 250/125 20/5


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PDF 200KHz PF500 YL-LJ i7321 magnetic amplifiers
SAA6002A

Abstract: SAA6000 SAA6002 SAA6003 SAA6000A SAA6003A
Text: Pushbutton Telephone with SAA6002A SAA6003A Microcomputer fo r Telephone Fee Counters (60-Pin Plastic , . It is programmed to design a ver satile, easy-to-operate telephone fee counter which has a very small current consumption and needs only few external components. A fee counter equipped with the SAA6003A nC , without needing an interface. It can be used to show the time, the duration of the call, the number of fee pulses, and, in contrary to electromechanical fee counters which only display the number of fee pulses


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PDF SAA6002A 60-Pin SAA6002A SAA6003A SAA6000 SAA6002 SAA6003 SAA6000A SAA6003A
amplifer

Abstract: No abstract text available
Text: With stANDard socket, delay before and after and any mini sensor head FEA FEB FEC FED FEE , IP66 FEA - 24NA FEB - 24NA FEC - 24NA FED - 24NA FEE - 24NA CLOSED FEA - 24NB FEB - 24NB FEC - 24NB OPEN FEA - 24NC FEB - 24NC FEC - 24NC AND CLOSED FED - 24NB FEE - 24NB FED - 24NC FEE - 24NC FED - 24PA FEE - 24PA CLOSED FEA - 24PB FEB - 24PB FEC - 24PB FED - , TYPE AC THREE THREADS OPEN FEE - 24PB SUITABLE OUTPUT OPEN TYPE DC OPEN


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PDF M3CM10CM 0-30V 4-250V M310CM 3CM10CM amplifer
2006 - Not Available

Abstract: No abstract text available
Text: . 21 FEE , FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits, unused bits (“-“) and mandatory bits (“1” or â


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PDF MICRF505 850MHz 950MHz MICRF505 EN300 M9999-103106
2006 - TN4-26011

Abstract: crystal oscillator 850mhz MICRF506 MICRF505YML MICRF505BML MICRF505 MICRF501 MICRF500 MICRF405 RS232 for modulator
Text: . 21 FEE , - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits, unused bits ("-") and


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PDF MICRF505 850MHz 950MHz MICRF505 EN300 M9999-103106 TN4-26011 crystal oscillator 850mhz MICRF506 MICRF505YML MICRF505BML MICRF501 MICRF500 MICRF405 RS232 for modulator
PC925L0NIP0F

Abstract: PC925L PC925L0YIP0F PC925L0N1P0F E64380 PC925L APPLICATION
Text: temperature Topr -40 - 100 °C To ensure fee reliability sufficiently, please design fee circuit wife considering the decreases of fee light emission power of fee LED. 2. Cleaning (1) Solvent cleaning: Solvent , doesn't occur before starting fee ultrasonic cleaning. (3) Applicable solvent: Ethyl alcohol, Methyl alcohol, Isopropyl alcohol When the other solvent is used, there are cases feat fee packaging resin is eroded. Please use fee other solvent after thorough confirmation is perfonned in actual using condition


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PDF KD-05P059B PC925L PC925L0NIP0F PC925L0YIP0F U10TM U10rm PC925L0NIP0F PC925L PC925L0YIP0F PC925L0N1P0F E64380 PC925L APPLICATION
2004 - MICRF505LYML

Abstract: TN4-26011 MICRF506 MICRF505YML MICRF505 MICRF501 MICRF500 X7R 10n 2KV toyocom 45 filter crystal oscillator 850mhz
Text: . 22 FEE , - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits, unused bits ("-") and


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PDF MICRF505L 850MHz 950MHz MICRF505 EN300 M9999-092904 MICRF505LYML TN4-26011 MICRF506 MICRF505YML MICRF501 MICRF500 X7R 10n 2KV toyocom 45 filter crystal oscillator 850mhz
2010 - Not Available

Abstract: No abstract text available
Text: Frequency Error Estimator ( FEE ) and crystal tuning capability allow fine tuning of the RF frequency. The , ) Frequency Error Estimator ( FEE ) Reference crystal tuning capability 2.0 to 2.5V supply voltage range , . 25 FEE , €˜1’ 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits. Unused bits (“-“) and


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PDF MICRF507 470MHz 510MHz 10dBm MICRF507 510MHz. 20kbps 200kbps
2004 - CM105X7R102K50A

Abstract: uhf fsk modem 300 baud
Text: .21 FEE , BitRate_clkS1 `1' `0' N0_7 M0_7 N1_7 M1_7 `1' FEE _7 D6 PA2 Modulation0 SC_by `1' Mod_F1 Mod_clkS2 BitRate_clkS0 `1' `0' N0_6 M0_6 N1_6 M1_6 `0' FEE _6 D5 PA1 `0' `0' `0' Mod_F0 `0' Mod_clkS1 RefClk_K5 `0' `1' A0_5 N0_5 M0_5 A1_5 N1_5 M1_5 `1' FEE _5 D4 PA0 `0' PA_By VCO_IB2 Mod_I4 `1' Mod_clkS0 RefClk_K4 ScClk4 XCOtune4 A0_4 N0_4 M0_4 A1_4 N1_4 M1_4 `0' FEE _4 The control registers in MICRF506 are accessed through


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PDF MICRF506 410MHz 450MHz MICRF506 EN300 M9999-092904 CM105X7R102K50A uhf fsk modem 300 baud
17p107

Abstract: D17107 ZS7B IPD17107L SE-17107 MPD17
Text: one-time PROM : 1K byte (512 x 16 bits) Instruction execution time : 8 pis (at fee = 1 MHz, RC oscÍlíat¡onNote) Supply voltage : V dd = 2.5 to 6.0 V ( fee = 50 kHz to 250 kHz) Vdd - 4.5 to 6.0 V ( fee - , Oscillation settling time Supply voltage Vdd = 2.5 to 6.0 V (at fee = 50 kHz to 250 kHz) V od = 4.5 to 6.0 V (at fee = 50 kHz to 1 MHz) Standard = 1.5 to 3.6 V (at fee = 50 kHz to 250 kHz) Quality , fiA I ddi V dd = 5 V ± 1 0 %, 3.0 mA fee = 1.0 MHz ± 2 0 % Vdd = 3 V ±10% , fee =


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PDF uPD17P107 uPD17107 IPD17107, juPD17107 PD17107 PD17107L, /jPD17107L /iPD17107. PD17107 17p107 D17107 ZS7B IPD17107L SE-17107 MPD17
2005 - MICRF620Z

Abstract: MICRF620 MICRF600 MICRF600Z MICRF610 MICRF610Z RFB433B RF MODULE 434Mhz, fsk RFB915
Text: . 16 FEE , - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control Registers in MICRF620 July 2006 7 M9999 , 0000001 `1' `0' `0' `0' RSSI_en LD_en PF_FC1 PF_FC0 The FEE can operate in , result of the measurement is the FEE value, this can be read from register with address 0010110b


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PDF MICRF620 434MHz MICRF620 EN300 M9999-120205 MICRF620Z MICRF600 MICRF600Z MICRF610 MICRF610Z RFB433B RF MODULE 434Mhz, fsk RFB915
2005 - MICRF600

Abstract: MICRF610 MICRF620 RFB433B RFB868B RFB915B RFB915
Text: . 14 FEE , _0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control , transmit power to reduce current consumption. FEE A6.A0 D7 D6 D5 D4 D3 D2 D1 D0 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 The Frequency Error Estimator ( FEE ) uses


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PDF MICRF610 868-870MHz MICRF610 EN300 M9999-120205 MICRF600 MICRF620 RFB433B RFB868B RFB915B RFB915
2010 - TN4-26011

Abstract: crystal oscillator 850mhz N04 U1 differential feed loop antenna MICRF505 MICRF506 TSX-10A
Text: Frequency Error Estimator ( FEE ) and crystal tuning capability allow fine tuning of the RF frequency. The , Received Signal Strength Indicator (RSSI) Frequency Error Estimator ( FEE ) Reference crystal tuning , . 25 FEE , - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits. Unused bits ("-") and mandatory bits ("1" or "0"


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PDF MICRF507 470MHz 510MHz 10dBm MICRF507 510MHz. 20kbps 200kbps TN4-26011 crystal oscillator 850mhz N04 U1 differential feed loop antenna MICRF505 MICRF506 TSX-10A
2010 - Not Available

Abstract: No abstract text available
Text: Frequency Error Estimator ( FEE ) and crystal tuning capability allow fine tuning of the RF frequency. The , ) Frequency Error Estimator ( FEE ) Reference crystal tuning capability 2.0 to 2.5V supply voltage range , . 25 FEE , FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming bits. Unused bits (“-“) and mandatory bits (“1” or â


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PDF MICRF507 470MHz 510MHz 10dBm MICRF507 510MHz. 20kbps 200kbps
2004 - micrf

Abstract: TN4-26011 433 mhz UHF RECEIVER, pcb layout and Schematic MICRF505 MICRF501 MICRF500 MICRF405 toyocom 45 filter ETSI-EN-300-220 MICRF506
Text: .21 FEE , _0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Names of programming


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PDF MICRF506 410MHz 450MHz MICRF506 EN300 M9999-092904 micrf TN4-26011 433 mhz UHF RECEIVER, pcb layout and Schematic MICRF505 MICRF501 MICRF500 MICRF405 toyocom 45 filter ETSI-EN-300-220
2005 - RFB433B

Abstract: MICRF610Z MICRF600 MICRF600Z MICRF610 MICRF620 MICRF620Z RFB915 43044
Text: . 15 FEE , - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control Registers in MICRF610 July 2006 7 , PF_FC0 M9999-120205 Micrel, Inc. MICRF610/MICRF610Z The FEE can operate in three different , -90 -80 -70 -60 -50 FEE Mode Input power [dBm] Figure 10. RSSI Voltage A


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PDF MICRF610 868-870MHz MICRF610 EN300 M9999-120205 RFB433B MICRF610Z MICRF600 MICRF600Z MICRF620 MICRF620Z RFB915 43044
FE8006-45

Abstract: EI 33 5mh 8041-33 FE8006-125 EL Ei 33 transformer transformateurs N3 3kv SEC fe8041-33 intel 8008 cpu intel 8008
Text: ont une tolérance de ± 2 mm FEE ISDN Guide . 3-4 , . 30 Guide RNIS FEE , .30 The information contained in this catalog supersedes all previously published FEE catalogs, brochures and data-sheets. They are based on average performances and shall not be deemed as contractual. FEE , included herein is believed to be accurate and reliable FEE assumes no responsibility for its use; nor for


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PDF PF600 FE8006-45 EI 33 5mh 8041-33 FE8006-125 EL Ei 33 transformer transformateurs N3 3kv SEC fe8041-33 intel 8008 cpu intel 8008
repeater high sensitivity

Abstract: RFB915 RF MODULE 434Mhz, fsk RFB915B RFB868B RFB433B MICRF620 MICRF610 MICRF600 rX-433
Text: . 14 FEE , - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control Registers in MICRF620 December 2005 7 M9999 , transmit power to reduce current consumption. FEE A6.A0 D7 D6 D5 D4 D3 D2 D1 D0 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE


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PDF MICRF620 434MHz MICRF620 EN300 M9999-120205 repeater high sensitivity RFB915 RF MODULE 434Mhz, fsk RFB915B RFB868B RFB433B MICRF610 MICRF600 rX-433
pSOS

Abstract: psos prepc ip board samsung Samsung S ARM
Text: customers could settle on the royalty fee that is higher than royalty fee that has been negotiated between , with minimum royalty fee possible. As a result in case the customer wishes s/he could pay the royalty , fee will be calculated using accumulated volume. The details regarding the royalty fee should be , fee will be the same as above (1. Royalty related issue). Note: 1) The price is only for Asia area , payment of the royalty fee will be the same as above (1.Royalty related issue). 3. Technical Support


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PDF 32-bit pSOS psos prepc ip board samsung Samsung S ARM
2005 - RF MODULE 434Mhz

Abstract: A 434 RF Receiver TRANSMITTER PAIR RX-434 RFB915 MICRF620 MICRF610 MICRF600 rX-433 RF MODULE 434Mhz, fsk micrel TX 433 MHz layout
Text: . 14 FEE , - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control Registers in MICRF620 December 2005 7 M9999 , transmit power to reduce current consumption. FEE A6.A0 D7 D6 D5 D4 D3 D2 D1 D0 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE


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PDF MICRF620 434MHz MICRF620 EN300 M9999-120205 RF MODULE 434Mhz A 434 RF Receiver TRANSMITTER PAIR RX-434 RFB915 MICRF610 MICRF600 rX-433 RF MODULE 434Mhz, fsk micrel TX 433 MHz layout
2005 - RFB868B

Abstract: MICRF600 MICRF610 MICRF620 RFB433B RFB915B RFB915
Text: . 14 FEE , `0' `1' 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE _6 FEE _5 FEE _4 FEE _3 FEE _2 FEE _1 FEE _0 Table 1. Control Registers in MICRF600 , transmit power to reduce current consumption. FEE A6.A0 D7 D6 D5 D4 D3 D2 D1 D0 0010101 - - - - FEEC_3 FEEC_2 FEEC_1 FEEC_0 0010110 FEE _7 FEE


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PDF MICRF600 902-928MHz MICRF600 M9999-091905 RFB868B MICRF610 MICRF620 RFB433B RFB915B RFB915
1998 - c829 transistor datasheet

Abstract: c829 transistor c243 transistor c829 C516 transistor c516 free C829 c829 transistor c829 equivalent TI date code
Text: SG29 - RFF REFERENCE SG33 - TAX DUTY/TAX/ FEE DETAILS SG33 - MOA MONETARY AMOUNT SG38 - ALC , TEXT UNS SECTION CONTROL SG49 - MOA MONETARY AMOUNT SG51 - TAX DUTY/TAX/ FEE DETAILS SG51 - MOA , PRICE DETAILS REFERENCE DUTY/TAX/ FEE DETAILS MONETARY AMOUNT ALLOWANCE OR CHARGE MONETARY AMOUNT REQUIREMENTS AND CONDITIONS FREE TEXT SECTION CONTROL MONETARY AMOUNT DUTY/TAX/ FEE DETAILS MONETARY AMOUNT , be required by tax regulations. TAX DUTY/TAX/ FEE DETAILS Function: A segment specifying the


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PDF EDIN03 c829 transistor datasheet c829 transistor c243 transistor c829 C516 transistor c516 free C829 c829 transistor c829 equivalent TI date code
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