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ISO7142CCQDBQRQ1 Texas Instruments Automotive, Small Footprint, Low Power, Quad-Channel 2/2 Digital Isolator 16-SSOP -40 to 125 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
ISO7140FCCDBQR Texas Instruments 4242-VPK Small-Footprint and Low-Power 4/0 Quad Channel Digital Isolator with Fail-Safe Output Low 16-SSOP -40 to 125 visit Texas Instruments Buy
ISO7140CCDBQ Texas Instruments 4242-VPK Small-Footprint and Low-Power 4/0 Quad Channel Digital Isolator with Noise Filter 16-SSOP -40 to 125 visit Texas Instruments
ISO7141CCDBQR Texas Instruments 4242-VPK Small-Footprint and Low-Power 3/1 Quad Channel Digital Isolator with Noise Filter 16-SSOP -40 to 125 visit Texas Instruments Buy
ISO7140FCCDBQ Texas Instruments 4242-VPK Small-Footprint and Low-Power 4/0 Quad Channel Digital Isolator with Fail-Safe Output Low 16-SSOP -40 to 125 visit Texas Instruments

cap footprint

Catalog Datasheet MFG & Type PDF Document Tags

74279266LF

Abstract: JR36- 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

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

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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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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