NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: external 6V to 9V before applying +4.5V to +6.0V across the pins marked V+ and GND on the DC1620A DC1620A. DC1620A DC1620A , supply when collecting data from an LVDS demo board. It must be supplied from an external 6V to 9V on , START PROCEDURE NAP PARALLEL/SERIAL PROGRAMMING MODE 4.5V TO 6V Â V + ANALOG INPUT CHANNEL , source. The amplitude should be large, up to 3VP-P or 13dBm. When using a sinusoidal signal generator a , , 20Msps to 125Msps Dual ADCs DESCRIPTION Demonstration circuit 1620A supports a family of 16-/14-/12-bit ... | Original |
10 pages, |
1620a 17 DC1620A LTC2185 LTC2184 LTC2183 LTC2182 LTC2181 LTC2180 LTC2188 LTC2145-14/-12 LTC2144-14/-12 LTC2143-14/-12 LTC2142-14/-12 LTC2141-14/-12 DC1620A abstract |
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| Abstract: VDD=15V; CL=5nF; O/P= 2V to 9V 40 70 V TF-PFC Falling Time VDD=15V; CL=5nF; O/P= 9V to , Min. TPD-PWM Propagation Delay to Output  VLIMIT Loop VDD=15V, OPWM drops to 9V 60 , /P= 2V to 9V 30 60 120 nS TF-PWM Falling Time VDD=15V; CL=5nF; O/P= 9V to 2V , and reduces switching noise. At light load, the switching frequency is continuously decreased to , are clamped. If the feedback loop is broken, SG6932 SG6932 will shut off to prevent extra-high voltage on ... | Original |
20 pages, |
SG6932SZ diode marking n47 marking N95 N100 Power Flow ipfc SG6932DZ rn75 SG6932 SG6932 abstract |
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| Abstract: enough to register as logic high at the digital input of the power manager. Using the gain of amplifier , limit can be increased to 3A by using the upper VMON. This keeps the power dissipated in the MOSFET to a , 5 Wait for 15.36ms using timer 1 // Hot Swap Complete: wait for a fault to occur. Step 6 Wait , Introduction A hot swap controller is used to limit the inrush current when a circuit board is plugged into a , Hot swap controllers are also required to isolate the board from the backplane which is useful in ... | Original |
13 pages, |
ZXCT1009 POWR1220AT8 2N3906 2N3904 12v irf7832 tranzorb RD1068 -POWR1220AT8 PAC-POWR1220AT8-HS-EVN PAC-POWR1220AT8-HA-EVN RD1068 abstract |
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| Abstract: external power supply of 6V to 9V with a 1A current supply (minimum). The power supply is included in the , Spectrum Analyzer, power meter, EVM tester, etc.). B. Connect the PC to the HDK Adapter using an RS-232 RS-232 , responsible for their products and applications using TI components. To minimize the risks associated with , using a single chip MAC/Baseband/Radio, three small companion devices (PM and FE for 802.11 b/g), FE (for 802.11 a) and several discrete components. The HDK allows users to easily develop applications ... | Original |
23 pages, |
JTAG via rs232 diagram wl12* TCXO WL1253FE omap2420 OMAP2420TM WiLink 7.0 WLAN-DS-0001 WL1251PM wilink 8 WLAN Chip brf6150 WiLink 6.0 wilink 7 rosenberger 19 S 103-400 WL1253 SWAU006 WL1253 abstract |
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| Abstract: â- Output stage clamps to 0.65V and provides up to 9V output voltage swing â- Output stage directly , range is from ground to approximately 9V and the maximum differential input voltage is Vcc- â- b50112 4 , monochrome or RGB color monitor applications. In addition to the wideband video amplifier the LM2202 LM2202 contains , for the contrast attenuator is pinned out separately to provide a more accurate control system for RGB color monitor applications. All DC controls offer a high input impedance and operate over a 0V to 4V ... | OCR Scan |
18 pages, |
national semiconductor 1976 LM2202N LM2202M LM2202 LM1202 DIFFERENTIAL VIDEO AMPLIFIER b50112 5 pin voltage comparator IC LM2202 abstract |
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| Abstract: â- Output stage clamps to 0.65V and provides up to 9V output voltage swing â- Output stage directly , desired level by simply biasing pin 19 to the black level voltage by using a voltage divider at pin 19. , RGB color monitor applications. In addition to the wideband video amplifier the LM1202 LM1202 contains a , the contrast attenuator is pinned out separately to provide a more accurate control system for RGB color monitor applications. All DC controls offer a high input impedance and operate over a 0V to 4V ... | OCR Scan |
16 pages, |
V17L LM1202N LM1202 1144q LM1202M 5.3V zener LM1202 abstract |
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| Abstract: 7 PGB PGB is the PG comparator output. The input of PGB comparator is using Vfb (pin 15) to , using additional high voltage resistors. Vrms1 will take the IAC current + RC filters to obtain the , Due to ZCS and about ZVS, it is about noise free functions. CM6565 CM6565 gives the best noise free , will be disabled (Patented) PGB pin also can be used to turn on the CM6900/CM6901 CM6900/CM6901 1. IAC (pin 1 , system will be less sensitive to the noise. The system can reduce one resistor between ground and IAC ... | Original |
19 pages, |
CM6900 817C datasheet Interleaved PFC Boost Converter EE-19 DATASHEET C 47uf/400v QP2512 cm6565 igbt charger with pfc control 835NL-1A-B-C offline UPS interleaved Boost PFC 3 phase pfc controller 817c CM6565 CM6565 CM6565 abstract |
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| Abstract: holding SECAN reference frequency. Connect 0.47uF to GND, If not using SECAM decoder on TB1261 TB1261, put at , The flexibility of this TB1261F/TB1262F TB1261F/TB1262F contributes to reduce development costs and components in a , / 66 SIF IN FM filter IF Vcc(5V) IF Vcc(9V) RF AGC IF AGC 4 74 67 78 1 68 - 1stSIF QSS demo AM demo* - PIF VCO S-Trap AFT(to BUS) neg/pos* PIF/SIF inter , OUT YC GND 25 17 RGB Vcc(9V) 11 46 47 28 33 37 39 41 40 Dig GND ... | Original |
66 pages, |
307H fet 6.5MHz SAW FILTER crystal 3.579545MHZ TV NTSC RD7BL tb1261 TB1261F TB1262F HPF 505 100K preset horizontal preset variable resister 10k ohm TC74HC125P TB1261F/TB1262F TB1261F/TB1262F abstract |
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| Abstract: , and uploaded to the PC over USB or RS232 RS232, to be played back using an OEM software application , peripheral components are required/supported in order to complete a camera using the chipset. Such a camera , while in `Continuous' mode, then downloaded to the PC for playback, using software to create an AVI file. Using STV0680B-003 STV0680B-003, the firmware also includes the capability to trigger a flashgun module , Version 3.4 RS232 RS232 interface to PC USB interface to PC 4.5 - 6v Battery e.g. 3-4 x AA, AAA, etc. ... | Original |
63 pages, |
VV6500 5v headphone AMPLIFIER CIRCUIT DIAGRAM sharp camera protocol sharp lcd panel pinout STV0680A STV0680B STV0680B-001 STV0680B-003 VV6444 14 pin vga camera pinout VV6410/6411/6500 STV0680B abstract |
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| Abstract: , and uploaded to the PC over USB or RS232 RS232, to be played back using an OEM software application , peripheral components are required/supported in order to complete a camera using the chipset. Such a camera , while in `Continuous' mode, then downloaded to the PC for playback, using software to create an AVI file. Using STV0680B-003 STV0680B-003, the firmware also includes the capability to trigger a flashgun module , Version 3.4 RS232 RS232 interface to PC USB interface to PC 4.5 - 6v Battery e.g. 3-4 x AA, AAA, etc. ... | Original |
63 pages, |
VV6500 Buzzer 200mhz lcd hyundai Piezo Contact Microphone Samsung 6410 STV0680A STV0680B STV0680B-001 STV0680B-003 VV6444 21 pin vga camera pinout VV6410/6411/6500 STV0680B abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| P2 ADS# P13 V CC M9 V CC N6 L13 ALE# A3 V CC A6 V SS E2 A9 V SS F13 AD5 L12 BE3# L2 C9 V CC H1 V SS N5 AD14 M9 M14 AD0 A6 V CC C11 XINT0# H14 www.datasheetarchive.com/files/intel/design/i960/techinfo/80960jx/jcjs_pck.htm |
Intel | 05/11/1998 | 296.56 Kb | HTM | jcjs_pck.htm |
| P2 ADS# P13 V CC M9 V CC N6 AD1 L13 ALE# A3 V CC A6 V SS V CC A9 V SS F13 AD5 L12 BE3 # C6 V CC G14 V SS K13 AD13 P12 HOLD C9 V CC H1 V SS N5 AD14 www.datasheetarchive.com/files/intel/design/i960/techinfo/80960jx/jcjs_pck-v1.htm |
Intel | 03/02/1999 | 320.44 Kb | HTM | jcjs_pck-v1.htm |
| P2 ADS# P13 V CC M9 V CC N6 AD1 L13 ALE# A3 V CC A6 V SS V CC A9 V SS F13 AD5 L12 BE3 # C6 V CC G14 V SS K13 AD13 P12 HOLD C9 V CC H1 V SS N5 AD14 www.datasheetarchive.com/files/intel/products one/design/i960/techinfo/80960jx/jcjs_pck.htm |
Intel | 04/05/1999 | 320.44 Kb | HTM | jcjs_pck.htm |
| 6 8 B2 4 0 + +COS(9*V(3)/81+COS(11*V(3 (< B4 6 0 V=(0.5+0.405284734*V(4)*0.14 B5 156 D5307 D5307 D5307 D5307 D9 156 25 D5307 D5307 D5307 D5307 C2 156 0 1.5N B17 69 0 V=V(11)1 ? 2 : 0 B19 71 0 V=V(11)1 ? 2 : 0 B21 74 0 V=V(11) www.datasheetarchive.com/files/on-semiconductor/models/cs5307.lib |
On Semiconductor | 19/06/2002 | 7.81 Kb | LIB | cs5307.lib |
| 5 5 4 4 3 3 2 2 1 1 D D C C B B A A EXT INT 2.9V 2.75V 2.9V 2.75V 4.2V IDEAL 6) DO NOT change SELA .5VREF 20h 28h DCDIV TripV (Falling) = 9.60V 12V / 7A 12V / 7A 12.6V 1A-7Amax 10mV 0.5A 100mV 1A VREF=1 are rated voltages using 1.2V/Cell. 5) Requires modifcation of Thermistor Circuit to work. 3) Requires Note 4 6 Cell (7.2V) 4 Cell (16.8V) 3 Cell (12.6V) Standard Li TYPE=GND TYPE=VDD Note 3 Smart Li Default 4 Cell (4.8V)SELC=GND 3 Cell (12.6V) Note 3 Battery Chemistry and Voltage Table Note 3,5 1 Cell (4 www.datasheetarchive.com/download/59883040-364657ZC/1259a.zip (DC1259A REV2 sch.pdf) |
Linear | 22/09/2009 | 1702.01 Kb | ZIP | 1259a.zip |
| OUTPUT POWER SUPPLY CONTROLLED BY LTC2978 LTC2978 LTC2978 LTC2978 VOUT_0 1.4uA UP TO 48V VFB = 0.6V Trise = APPROX. 3.8mS PRELOAD O U T J 2 V O U T J 3 V O U T J 4 V O U T J 5 V O U T J 6 V O U T J 7 V O U T J 8 V O U T J 9 V O U SIGNAL GND PLANE TO PAD H12 AT ONE POINT PRELOAD NOMINAL VOUT VOUT_1 1.4uA UP TO.48V VFB = 0.6V VDAC T J 6 V O U T J 7 V O U T J 8 V O U T J 9 V O U T J 1 0 V O U T K 1 V O U T K 2 V O U T K 3 V O U T K 4 V O U T K 5 V O U T K 6 V O U T K 7 V O U T K 8 V O U T K 9 V O U T K 1 0 V O U T K 1 1 VOUT L1 www.datasheetarchive.com/download/66904533-364854ZC/1540a.zip (1361Asch.pdf) |
Linear | 22/09/2009 | 7133.91 Kb | ZIP | 1540a.zip |
| A6 V SS E13 AD3 N14 BE1# J3 BE3# L2 V CC A9 V SS G2 AD6 FAIL# C6 V CC G1 V SS K13 AD13 P12 HOLD C9 V CC G14 V SS N5 N3 AD24 A9 V CC C14 NC J3 www.datasheetarchive.com/files/intel/design/i960/techinfo/80960jx/80l_pck.htm |
Intel | 05/11/1998 | 171.86 Kb | HTM | 80l_pck.htm |
| A6 V SS E13 AD3 N14 BE1# J3 BE3# L2 V CC A9 V SS G2 AD6 FAIL# C6 V CC G1 V SS K13 AD13 P12 HOLD C9 V CC G14 V SS N5 N3 AD24 A9 V CC C14 NC J3 www.datasheetarchive.com/files/intel/design/i960/techinfo/80960jx/80l_pck-v1.htm |
Intel | 03/02/1999 | 187.97 Kb | HTM | 80l_pck-v1.htm |
| A6 V SS E13 AD3 N14 BE1# J3 BE3# L2 V CC A9 V SS G2 AD6 FAIL# C6 V CC G1 V SS K13 AD13 P12 HOLD C9 V CC G14 V SS N5 N3 AD24 A9 V CC C14 NC J3 www.datasheetarchive.com/files/intel/products one/design/i960/techinfo/80960jx/80l_pck.htm |
Intel | 04/05/1999 | 187.97 Kb | HTM | 80l_pck.htm |
| # L1 V CC A9 V SS F13 AD5 L12 M10 FAIL# C6 V CC G14 V SS K13 AD13 P12 HOLD C9 V CC H1 V SS XINT1# H13 V SS M14 AD0 A6 V CC AD24 A9 V CC C14 NC J3 BE1 www.datasheetarchive.com/files/intel/design/i960/techinfo/80960jx/jx_3_pck-v1.htm |
Intel | 03/02/1999 | 333.03 Kb | HTM | jx_3_pck-v1.htm |