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TPSM84824MOLR Texas Instruments 4.5V to 17V Input, 0.6V-10V Output, 8A Power Module in Compact 7.5x7.5mm Footprint 24-QFM -40 to 105 visit Texas Instruments
PTPSM84824MOLR Texas Instruments 4.5V to 17V Input, 0.6V-10V Output, 8A Power Module in Compact 7.5x7.5mm Footprint 24-QFM -40 to 105 visit Texas Instruments Buy
ISO7142CCQDBQQ1 Texas Instruments Automotive, Small Footprint, Low Power, Quad-Channel 2/2 Digital Isolator 16-SSOP -40 to 125 visit Texas Instruments
ISO7142CCQDBQRQ1 Texas Instruments Automotive, Small Footprint, Low Power, Quad-Channel 2/2 Digital Isolator 16-SSOP -40 to 125 visit Texas Instruments Buy
REF3425IDBVR Texas Instruments Low-Drift Low-Power Small-Footprint Series Voltage Reference 6-SOT-23 -40 to 125 visit Texas Instruments Buy
REF2125IDBVR Texas Instruments Low-Drift Low-Power Small-Footprint Series Voltage Reference With Clean Start 5-SOT-23 -40 to 125 visit Texas Instruments Buy

cap footprint

Catalog Datasheet MFG & Type PDF Document Tags

74279266LF

Abstract: cap footprint Ceramic 16V X7R Multilayer Ceramic 16V X7R Multilayer Ceramic Optional Cap Footprint (0805) 10v Tantalum Capacitor 16V X7R Multilayer Ceramic Optional Cap Footprint 50V NPO Multilayer Ceramic 20VTantalum Capacitor , Resistor S M D Resistor (p/n is 0603 - will fit in 0402 footprint used on PCB) S M D Resistor 0.063W S M D
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OCR Scan

C0805C104KRAC7800

Abstract: Slide Switch 1P2T dual-current limit for large output capacitance, a surface-mount D-size cap footprint is provided (C9) for that purpose. Or, you may connect the cap from SW_OUT to GND at J1. The LDO output on the EVM is , lower resistance resistor, or add an appropriate resistor on TR1 footprint. Refer to the data sheet to
Texas Instruments
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D312 6 pin usb

Abstract: D312 diode ESD device to minimize stray series inductance. Figure 14. Typical Layout with Optional VP Cap Footprint Additional Information See also ON Semiconductor Application Note, "Design Considerations , 0.10 C A1 SIDE VIEW C SEATING PLANE END VIEW RECOMMENDED SOLDERING FOOTPRINT* 3.30 0.85
ON Semiconductor
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D312 6 pin usb

Abstract: d312 6 pin the ESD device to minimize stray series inductance. Figure 14. Typical Layout with Optional VP Cap Footprint Additional Information See also California Micro Devices Application Note AP-209, "Design
California Micro Devices
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CM1231 D312 6 pin usb d312 6 pin D312 diode diode D312 d312 sot23-6 IEC61000-4-2 0236REF

STK17TA8-RF45I

Abstract: STK17 X2 Recommended Values Y1 = 32.768 KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave
Simtek
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STK17TA8 STK17TA8-RF45I STK17 stk17c SSOP-48 STK17TA8-R A16-A0 ML0025

ew10-3

Abstract: SSOP-48 RF = 10 MO C1 = 0 (install cap footprint, but leave unloaded) Document Number: 001-52040 Rev. *C , CAP 1 48 NC A 14 2 47 V CC NC 3 46 HSB A 12 A7 4 5 45 44 , ) Operation Figure 13. AutoStore Mode V CAP To reduce unnecessary nonvolatile stores, AutoStore and
Cypress Semiconductor
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STK17T88 ew10-3 STK17T88-RF25 STK17T88-RF45 STK17T88-RF45TR

cap footprint

Abstract: STK17 X2 Recommended Values Y1 = 32.768 kHz RF = 10 MO C1 = 0 (install cap footprint, but leave unloaded , Pin Configurations Figure 1. 48-Pin SSOP V CAP NC A 14 A 12 A7 A6 A5 INT A4 NC NC NC V SS NC V , low. Figure 13. AutoStore Mode V CC V CAP V CC Hardware STORE (HSB) Operation The STK17T88
Cypress Semiconductor
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cap footprint STK17T88-RF45I

SSOP-48

Abstract: STK17T88 Recommended Values Y1 = 32.768 KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave unloaded) C2 =
Simtek
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nano power rtc A14-A0 ML0024

SSOP-48

Abstract: STK17T88 Revised March 17, 2009 [+] Feedback STK17T88 Pin Configurations Figure 1. 48-Pin SSOP V CAP 1 , Component Configuration X1 X2 Recommended Values Y1 = 32.768 KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 pF ± 10% (do not vary from this value) Document Number
Cypress Semiconductor
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200FP rtc battery monitor

STK17TA8-RF45I

Abstract: STK17TA8-R cap footprint, but leave unloaded) C2 = 56 pF ± 10% (do not vary from this value) Document # , CAP 1 48 2 47 V CC A 15 3 46 HSB A 12 A7 4 5 45 44 A6 6
Cypress Semiconductor
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STK17TA8-RF25 NVSRAM

SSOP-48

Abstract: STK17TA8 (install cap footprint, but leave unloaded) C2 = 56 pF ± 10% (do not vary from this value) Document # , Revised March 02, 2009 [+] Feedback STK17TA8 Pinouts Figure 1. Pin Diagram - 48-PIn SSOP V CAP
Cypress Semiconductor
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STK17TA8-RF45

Abstract: STK17TA8-RF 0 (install cap footprint, but leave unloaded) C2 = 56 pF ± 10% (do not vary from this value , . Pin Diagram - 48-PIn SSOP V CAP 48 2 47 V CC A 15 3 46 HSB A 12 A7 4 5
Cypress Semiconductor
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STK17TA8-RF45 STK17TA8-RF STK17TA8RF
Abstract: Values Y1 = 32.768 KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 pF Â , . 24 Page 2 of 24 STK17TA8 Pinouts Figure 1. Pin Diagram - 48-PIn SSOP V CAP 1 48 Cypress Semiconductor
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transistor W66

Abstract: Recommended Values: Y1 = 32.768KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 pF , independent, nonvolatile data resides in the nonvolatile elements. D V CAP RTC MUX ROW DECODER om , Page 2 of 29 [+] Feedback CY14B256K Pin Configurations Figure 1. 48-Pin SSOP V CAP NC A 14 , modes. Figure 2. AutoStore Mode V CC V CAP V CAP V CC 10k Ohm WE SRAM READ The CY14B256K
Cypress Semiconductor
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transistor W66

CY14B256K

Abstract: CY14B256K-SP25XC (install cap footprint, but leave unloaded) C2 = 56 pF + 10% (do not vary from this value) Note 4 , DETECT DQ 0 DQ 3 V RTCbat STORE/ RECALL CONTROL A 14 DQ 1 V CAP COLUMN DEC , Configurations Figure 1. 48-Pin SSOP V CAP 1 48 V CC NC A 14 2 47 NC 3 46 HSB , STORE operations. Figure 2. AutoStore Mode V CC 0.1UF 10k Ohm V CAP V CAP V CC WE
Cypress Semiconductor
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CY14B256K-SP25XC

CY14B101K

Abstract: STK17TA8 kHz DQ 0 A3 A2 RF = 10 M C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 pF + 10 , 45 5 44 WE A 13 A 12 A7 ig ns V CAP A6 6 43 A5 7 42 A9 , V CAP V CAP The CY14B101K nvSRAM consists of two functional components paired in the same
Cypress Semiconductor
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transistor W66

Abstract: Recommended Values Y1 = 32.768 kHz DQ 0 A3 A2 A1 A0 C1 RF RF = 10 M C1 = 0 (install cap footprint, but , : 001-06401 Rev. *M Page 2 of 29 CY14B101K Pin Configurations Figure 1. 48-Pin SSOP V CAP A 16 A , operation is initiated with power provided by the VCAP capacitor. Figure 2. AutoStore Mode V CC V CAP V CAP V CC 10k Ohm WE SRAM READ The CY14B101K performs a READ cycle whenever CE and OE are
Cypress Semiconductor
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Abstract: Y1 = 32.768 kHz DQ 0 A3 A2 RF = 10 MΩ C1 = 0 (install cap footprint, but leave unloaded) C2 , ] Feedback CY14B101K Pin Configurations Figure 1. 48-Pin SSOP V CAP 1 48 V CC A 16 2 , CY14B101K Figure 2. AutoStore Mode V CC V CC 0.1UF V CAP 10k Ohm The CY14B101K nvSRAM , . V CAP Device Operation WE See the â'Truth Table For SRAM Operationsâ' on page 23 for a Cypress Semiconductor
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CY14B101K

Abstract: STK17TA8 DQ 0 Y1 = 32.768 kHz RF = 10 M C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 pF + , Configurations Figure 1. 48-Pin SSOP V CAP 1 48 V CC A 16 2 47 A 14 A 15 3 46 , . AutoStore Mode V CC 0.1UF 10k Ohm ig ns V CAP WE es See the "Truth Table For SRAM , . V CC V CAP de SRAM WRITE R AutoStore® Operation ec om m en A WRITE
Cypress Semiconductor
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CY14B101K

Abstract: STK17TA8 Recommended Values Y1 = 32.768KHz RF = 10M Ohm C1 = 0 (install cap footprint, but leave unloaded) C2 = 56 , Configurations Figure 1. 48-Pin SSOP V CAP 1 48 V CC A 16 2 47 A 14 A 15 3 46 , . AutoStore Mode V CC V CC 0.1UF V CAP 10k Ohm The CY14B101K nvSRAM consists of two functional , VCC. A STORE operation is initiated with power provided by the VCAP capacitor. V CAP Device
Cypress Semiconductor
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