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MONTARA-GT

Abstract: HSD150PK12 Quanta QD15XL06 LP150X05-A2C1 isl6247 quanta x93C46 PU1327 QD15XL06 7SH08
Text: 15 1 2 Parallel PG 25 3 Touchpad Keyboard PG 28 PG 28 4 FLASH PG 26 5 6 Quanta , PROJECT :OA6L Quanta Computer Inc. Size Date: 1 2 3 4 5 6 Document Number TABLE OF CONTENTS Monday , # CLKIN SCLK VDD SDATA GND CLKOUT REF_OUT *ICS91718 L42 *0 R282 *10K PROJECT :OA6L Quanta , : PROJECT :OA6L Quanta Computer Inc. Document Number NORTHWOOD (HOST BUS) Monday, July 14, 2003 Sheet E , Quanta Computer Inc. Size Date: Document Number NORTHWOOD (POWER/NC) Monday, July 14, 2003 Sheet E


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PDF 4X133MHZ CK408 33MHZ, ST9752 10/100/1000M 82562EZ/82540EM IEEE-1394 PCU10 10U/25V FDD6030BL MONTARA-GT HSD150PK12 Quanta QD15XL06 LP150X05-A2C1 isl6247 quanta x93C46 PU1327 QD15XL06 7SH08
2004 - roundup

Abstract: AN1798 PCA82C250 quanta
Text: between 1 and 8 Time Quanta . The duration of the segment PHASE_SEG1 may be between 1 and 8 Time Quanta if one sample per bit is selected and may be between 2 and 8 Time Quanta if three samples per bit , arguments. The Information Processing Time is equal to 2 Time Quanta , except for the following , appear that the minimum number of Time Quanta per bit is 5. However, many CAN controllers require a minimum of 8 Time Quanta per bit, as stipulated in [1]. The maximum number of Time Quanta per bit is 25


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PDF AN1798/D AN1798 roundup AN1798 PCA82C250 quanta
1995 - HD*4780

Abstract: quanta 0x00000803 0x00000005 can bus free PCA82C250 MC15 HD44780 Quanta Display engine control module bosch
Text: . 11 Relationship between Bit Timing & Time Quanta , Width = 1 Time Quanta Bit Synchronisation Width = 2 Time Quanta Bit Synchronisation Width = 3 Time Quanta Bit Synchronisation Width = 4 Time Quanta BRP3 0 0 0 0 0 : 1 1 1 1 BRP2 0 0 0 0 , Description Setting Prohibited PHSEG = 2 Time Quanta PHSEG = 3 Time Quanta PHSEG = 4 Time Quanta PHSEG = 5 Time Quanta PHSEG = 6 Time Quanta PHSEG = 7 Time Quanta PHSEG = 8 Time Quanta http


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PDF H8S/2636 H8S/2636F 16-bit H8S/2623F HD*4780 quanta 0x00000803 0x00000005 can bus free PCA82C250 MC15 HD44780 Quanta Display engine control module bosch
1999 - AN1798

Abstract: PCA82C250
Text: be between 1 and 8 Time Quanta . The duration of the segment PHASE_SEG1 may be between 1 and 8 Time Quanta if one sample per bit is selected and may be between 2 and 8 Time Quanta if three samples per bit , arguments. The Information Processing Time is equal to 2 Time Quanta , except for the following , appear that the minimum number of Time Quanta per bit is 5. However, many CAN controllers require a minimum of 8 Time Quanta per bit, as stipulated in [1]. The maximum number of Time Quanta per bit is 25


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PDF AN1798/D AN1798 AN1798 PCA82C250
1999 - AN1798

Abstract: PCA82C250
Text: between 1 and 8 Time Quanta . The duration of the segment PHASE_SEG1 may be between 1 and 8 Time Quanta if one sample per bit is selected and may be between 2 and 8 Time Quanta if three samples per bit , arguments. The Information Processing Time is equal to 2 Time Quanta , except for the following , appear that the minimum number of Time Quanta per bit is 5. However, many CAN controllers require a minimum of 8 Time Quanta per bit, as stipulated in [1]. The maximum number of Time Quanta per bit is 25


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PDF AN1798/D AN1798 AN1798 PCA82C250
MIL-C-27500

Abstract: thermocouple d-sub connector quanta DD15M10JVLX Thermocouple Type K sensor deutsch connector thermocouple connectors Thermocouple color suspension height sensor thermocouple cable
Text: > Equation Category Temperature Units Celsius or Fahrenheit Equation Formula Type -1.114487E-7* QUANTA ^4 +3.637494E-5* QUANTA ^3 -4.46708E-3* QUANTA ^2 +4.150544* QUANTA -4.6356 Analyzer V7 USERS only Name MODTQK , 3.276389E-8* QUANTA ^4 -1.049587E-5* QUANTA ^3 +2.639622E-4* QUANTA ^2 +3.928968* QUANTA -3.216541E-2 MODTQK ­


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PDF MODTQK-102 276389E-8 049587E-5 639622E-4 216541E-2 MIL-C-27500 MIL-C-27500 thermocouple d-sub connector quanta DD15M10JVLX Thermocouple Type K sensor deutsch connector thermocouple connectors Thermocouple color suspension height sensor thermocouple cable
2009 - QUANTA power sequence

Abstract: IA-DJ-02084 ccd KE DIODE QUANTA power on sequence Ia-dj-01044 transistor dk qe Dalsa Ia-dj-01044 full frame ccd image sensor fps IA-DJ-00524 image sensor x-ray
Text: DALSA IA-DJ High Quanta Imaging Sensor Features Front illuminated full-frame CCD High QE , High Quanta full-frame CCD sensors are designed to meet the requirements of scientific and x-ray applications demanding high sensitivity, high frame rates and low noise performance. The High Quanta series of , Diagram 6-Mar-09 03-036-20007-00 www.dalsa.com DALSA IA-DJ High Quanta Imaging Sensor Gate , coupling to the output is recommended to eliminate the DC offset. 2 DALSA IA-DJ High Quanta


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PDF IA-DJ-00524 700nm2 IA-DJ-01044 IA-DJ-02084 QUANTA power sequence IA-DJ-02084 ccd KE DIODE QUANTA power on sequence Ia-dj-01044 transistor dk qe Dalsa Ia-dj-01044 full frame ccd image sensor fps IA-DJ-00524 image sensor x-ray
1995 - 0X00000007

Abstract: HD44780 MC15 PCA82C250 h8s2636 quanta
Text: . 11 Relationship between Bit Timing & Time Quanta , Width = 1 Time Quanta Bit Synchronisation Width = 2 Time Quanta Bit Synchronisation Width = 3 Time Quanta Bit Synchronisation Width = 4 Time Quanta BRP3 0 0 0 0 0 : 1 1 1 1 BRP2 0 0 0 0 , Description Setting Prohibited PHSEG = 2 Time Quanta PHSEG = 3 Time Quanta PHSEG = 4 Time Quanta PHSEG = 5 Time Quanta PHSEG = 6 Time Quanta PHSEG = 7 Time Quanta PHSEG = 8 Time Quanta http


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2009 - QUANTA power sequence

Abstract: QUANTA power on sequence imaging sensor
Text: DALSA IA-DJ High Quanta Imaging Sensor Features Front illuminated full-frame CCD High QE response , .) Photo-sensitive readout registers for real-time exposure monitoring Description The IA-DJ High Quanta full-frame , sensitivity, high frame rates and low noise performance. The High Quanta series of sensors aims to provide the , , 2084 8 Dark 2 Inactive 3-Sep-09 03-036-20007-01 www.dalsa.com DALSA IA-DJ High Quanta Imaging , DC offset. 2 DALSA IA-DJ High Quanta Imaging Sensor Sensor Architecture Image Section Active


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PDF IA-DJ-00524 700nm2 IA-DJ-01044 IA-DJ-02084 QUANTA power sequence QUANTA power on sequence imaging sensor
2005 - HC9S12

Abstract: integrated circuit BOSCH HCS12 MC9S12DP256B AN3034
Text: , bits are divided into segments. These segments are divided into single units of time called time quanta , time quanta are contained in the segments. The first segment is always one time quantum long. This , TIMING SEGMENT 1 11 TIME QUANTA SYNCHRONIZATION SEGMENT 1 TIME QUANTA TIMING SEGMENT 2 4 TIME QUANTA Figure 2. Time Quanta Frequency and Individual Bit Segment Sizes Using MSCAN on the HCS12 , ) For this example we selected timing segment 1 to be 11 time quanta and time segment 2 to be 4 time


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PDF AN3034 HCS12 MSCAN12 HCS12 MSCAN12r HC9S12 integrated circuit BOSCH MC9S12DP256B AN3034
2005 - SPNU197

Abstract: QUANTA power sequence FM10 TMS470 abstract for FM audio transmitter abstract of fm transmitter and receiver FM10T
Text: discussion is provided. Two nodes operate at CAN frequencies f1 and f2. Time quanta must be chosen such that (# of time quanta ) 1 (# of time quanta ) 2 + + 1t NBT f1 f2 The frequencies differ from their , of 10 years, the CAN bus frequencies differ by Dt + (# of time quanta ) 2 (# of time quanta , quanta are summed to create the CAN bit time. On TMS470 microcontrollers: · the propagation_segment , represents the number of time quanta in the block TSEG1. ° · phase_segment2 is programmed with TSEG2


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PDF SPNA090 TMS470 SPNU197 QUANTA power sequence FM10 abstract for FM audio transmitter abstract of fm transmitter and receiver FM10T
2002 - QUANTA power sequence

Abstract: 802.3 CRC32 QUANTA Gigabit Ethernet PHY QLPG3116-PT280C PT280 P802 MPC860 MPC8260 CRC-32
Text: by user application offering flexible traffic flow control · Programmable Pause quanta for use , Quanta is defined in the frame payload bytes 2 (byte P1) and 3 (byte P2) as presented in Table 9. The Pause Quanta byte P1 is the most significant. © 2002 QuickLogic Corporation Preliminary , frame transfer is completed. The MAC stops transmitting data for the value defined in pause quanta . One Pause Quanta fraction refers to 512 bit times. If a Pause frame with a pause value of 0 (XON Condition


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PDF QLPG3116 104MHz QLPG3116-PT280C QUANTA power sequence 802.3 CRC32 QUANTA Gigabit Ethernet PHY QLPG3116-PT280C PT280 P802 MPC860 MPC8260 CRC-32
hp 19V adapter

Abstract: s10p40 quanta JA6033L FBMJ3216HS480 quanta computer usb2.0 hub quanta battery foxconn OPA343
Text: Page 6 A A Quanta Computer Inc. Size B Date: 5 4 3 2 PROJECT : NP2 Document Number , Size B Date: Document Number 2 2 Volume CONN. A Quanta Computer Inc. DOCKING CONN , L6 L7 *0-0805 R59 1 *0-0805 TV_GND TV_GND FOR EMI A A Quanta Computer Inc. Size B , R18 0_0603 SPDIF_C1 A SPDIF add ,L45 for EMI ,N/O MOUNT IN c164,c8 Size A Date: Quanta , .1U_50V_0603 1U_10V_0603 PROJECT : NP2 Quanta Computer Inc. Size Custom AUDIO_EQGND Date: 5 4 3 2


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PDF TSOP4836 TPA3005D3 CY7C65640 Page07: Page09: hp 19V adapter s10p40 quanta JA6033L FBMJ3216HS480 quanta computer usb2.0 hub quanta battery foxconn OPA343
167CR

Abstract: AP1641 C167CR siemens C167CR C167-CR quanta
Text: Nominal time quantum length bd Bus baudrate Nb Number of time quanta per bit period , time quanta for time segment 1 NTseg2 Number of time quanta for time segment 2 Moreover, the


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PDF AP1641 AP164102 C167CR 167CR 167CR" C167CR AP1641 siemens C167CR C167-CR quanta
Not Available

Abstract: No abstract text available
Text: €“ – – – – LSB x x x x x x x CS8 12 Chip Select to Data Delay ( quanta of 100 , Chip Select to Data Delay ( quanta of 100 µs) – 16-bit value (high byte) Example: If a 500 µs delay , this byte position with: 0x00 14 Last Data Byte to CS (de-asserted) delay ( quanta of 100 µs) â , Byte to CS (de-asserted) delay ( quanta of 100 µs) – 16-bit value (high byte) Example: If a 500 µs , 0x0005. - Fill this byte position with: 0x00 16 Delay Between Subsequent Data Bytes ( quanta of 100


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PDF MCP2210 20-lead DS22288A-page
2011 - mcp2210

Abstract: USB PID HID control PIC32 D1619 3271 QFN GP2D
Text: Select to Data Delay ( quanta of 100 µs) ­ 16-bit value (low byte) Example: If a 500 µs delay between the , byte position with: 0x05 13 Chip Select to Data Delay ( quanta of 100 µs) ­ 16-bit value (high , (de-asserted) delay ( quanta of 100 µs) ­ 16-bit value (low byte) Example: If a 500 µs delay between the last , position with: 0x05 15 Last Data Byte to CS (de-asserted) delay ( quanta of 100 µs) ­ 16-bit value , Subsequent Data Bytes ( quanta of 100 µs) ­ 16-bit value (low byte) Example: If a 500 µs delay between two


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PDF MCP2210 20-lead DS22288A-page mcp2210 USB PID HID control PIC32 D1619 3271 QFN GP2D
tb62506fg

Abstract: atmel 0721 A4963 AT8356908 b1658 PMH7 0824 ATMEL tb62506 atmel 0727 T9810
Text: P33 Ext. MIC Jack P33 Stereo MIC on LCD PROJECT : BV2A Quanta Computer Inc. Size , CPU EC 0707 EC A29 Size Custom Date: Document Number PROJECT : BV2A Quanta Computer Inc , EC 0707 Quanta Computer Inc. Size Custom Date: Document Number Yonah CPU (2/3) Thursday, June , /F_4 54.9/F_4 54.9/F_4 *56_4 27.4/F_4 680_4 EC 0725 A A PROJECT : BV2A Quanta Computer , /F_4 C312 0.1U/10V/X7R_4 A CALISTOGA PROJECT : BV2A Quanta Computer Inc. Size Custom Date


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PDF VCC1R5M/VCC1R05B MAX1540ETJ+ MAX8632ETI+ 166MHz 100MHz VCC1R05B 166MHz 96MHz CK410M BD3508EKN-E2 tb62506fg atmel 0721 A4963 AT8356908 b1658 PMH7 0824 ATMEL tb62506 atmel 0727 T9810
2006 - rtd temperature instrumentation amplifier circuit

Abstract: rtd with wheatstone bridge- temperature constant current source rtd circuits RTD 0 DEGREES AT 100 OHMS wheatstone bridge with temp. sensor Wheatstone Bridge operational amplifier Wheatstone Bridge amplifier rtd with wheatstone bridge rtd with wheatstone bridge- temperature sensor 2N2222 transistor
Text: ADC Quanta (Volts) ÷ dV/dT (Volts/ °C) Given: ADC Quanta (Volts)@ 12 bits = 0.004834 V Temp , to use the maximum sensitivity to determine the value to compare against the minimum ADC Quanta to , presented at the ADC input), it will yield the temperature resolution of the system. Given: ADC Quanta (Volts)@ 12 bits = 0.004834 V, ADC Quanta (Volts) @ 10 bits = 0.00963 V, Temp Resolution @ 12 bits = ADC Quanta (Volts) / Bridge Resolution (Volts/ °C) = 0.004834 V ÷ 0.0053 Volts/ °C = 0.9120 °C Temp


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PDF AC299 12-bit rtd temperature instrumentation amplifier circuit rtd with wheatstone bridge- temperature constant current source rtd circuits RTD 0 DEGREES AT 100 OHMS wheatstone bridge with temp. sensor Wheatstone Bridge operational amplifier Wheatstone Bridge amplifier rtd with wheatstone bridge rtd with wheatstone bridge- temperature sensor 2N2222 transistor
3BNB

Abstract: 81C90 AP2923
Text: quanta per bit period NTseg1 Number of time quanta for time segment 1 NTseg2 Number of time quanta for time segment 2 Moreover, the CAN specification 2.0 implies the following ranges for the bit


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PDF AP2923 AP292302 81C90/91 81C90 81C90\91 81C90/91 AP2923 3BNB
tb62506fg

Abstract: AT8356908 atmel 0721 quanta atmel 0723 SMD Transistors w26 max8724 TB62506 bcm5753 26df161
Text: Quanta Computer Inc. Size Custom Date: Document Number P21 Block Diagram Monday, December 05 , PROJECT : BV2 Quanta Computer Inc. Yonah CPU (1/3) Monday, December 05, 2005 Sheet E Rev 3A 2 of , EC 0707 Quanta Computer Inc. Size Custom Date: Document Number Yonah CPU (2/3) Monday , /F_4 54.9/F_4 54.9/F_4 *56_4 27.4/F_4 680_4 EC 0725 A A PROJECT : BV2 Quanta Computer , /F_4 C312 0.1U/10V/X7R_4 A CALISTOGA PROJECT : BV2 Quanta Computer Inc. Size Custom Date


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PDF VCC1R5M/VCC1R05B MAX1540ETJ+ MAX8632ETI+ 166MHz 100MHz VCC1R05B 166MHz 96MHz CK410M BD3508EKN-E2 tb62506fg AT8356908 atmel 0721 quanta atmel 0723 SMD Transistors w26 max8724 TB62506 bcm5753 26df161
2008 - AP1613

Abstract: AP16130 XE166 XC2000 UxCy_RBUF quanta
Text: time interval measurement, e.g. baud rate detection · A time quanta counter associated with the , which contains 10 or 25 time quanta , depending on the selected baud rate. · Bus idle ­ SDA and SCL , quanta counter (BRGL.PCTQ) · DCTQ ­ Denominator for time quanta counter (BRGL.DCTQ) Shift , quanta , standard mode ­ 100 kBaud (PCRH.STIM = 0b) · A symbol contains 25 time quanta , fast mode ­ , : -PCRH_STIM = 0, - The Symbol Timing, A symbol contains 10 time quanta PCRH_HDEL = 12, - The HW delay to


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PDF AP16130 LIABx95} 0x0080) 0x2000; TBUF00 0x0700) 0x00FF) 0x8000) 0x4000) AP1613 AP16130 XE166 XC2000 UxCy_RBUF quanta
1997 - IC 630 ONLY WRITTEN APPLICATION 16 PIN

Abstract: quanta
Text: memory quanta accesses when memory is packed to a density of 100%. A memory quanta varies in size , , the number of RAM cycles necessary to complete a memory quanta access depends on the memory bus width of the host CPU. In a MAC address lookup (48-bit) application, for example, a memory quanta is 50 , bits, a CPU with a 64-bit memory bus could accomplish a memory quanta in a single memory cycle


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PDF UT130-AP May1998 AP130-2-5-98 IC 630 ONLY WRITTEN APPLICATION 16 PIN quanta
AMD SB700

Abstract: RS780M R5C833 ITE8512 RS780L isl6265 SB700 BCM5784M quanta QUANTA AMD
Text: 44 D FLASH 16Mbits PG 41 Title Size Date: QUANTA COMPUTER BLOCK DIAGRAM Document , ) S4 (Suspend to DISK) S5 (SOFT OFF) OFF OFF Title QUANTA COMPUTER Index Document Number FX6 , HT_CTLOUT1 7 HT_CTLOUT#1 7 B A FOX_PZ6382A-284S-41F Title Size Date: 5 4 3 2 QUANTA COMPUTER , Size Date: A B C D QUANTA COMPUTER S1G2 DDRII MEMORY Document Number FX6 Tuesday, May 20, 2008 E , QUANTA COMPUTER S1G2 CTRL & DEBUG Document Number FX6 Tuesday, May 20, 2008 1 NOTE:HDT TERMINATION


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PDF EMC1423 SLG8SP628VTR FDS6298. PR164, PR165 A00-1 A00-1 AMD SB700 RS780M R5C833 ITE8512 RS780L isl6265 SB700 BCM5784M quanta QUANTA AMD
2004 - PMR97

Abstract: bosch can 2.0B HF64F F600 F601 F602 128x11 bosch can 2.0B time setting HF642
Text: following definition is used: Time Quanta = BRP fclk Where BRP (Baud Rate Predivider) is stored in BCR0 and fclk is the external frequency. 1 ­ bit time (8 ­ 25 time quanta ) SYNC_SEG PRSEG , prohibited PHSEG2 = 2 time quanta PHSEG2 = 3 time quanta PHSEG2 = 4 time quanta PHSEG2 = 5 time quanta PHSEG2 = 6 time quanta PHSEG2 = 7 time quanta PHSEG2 = 8 time quanta These bits are used to set the segment for correcting 1-bit time error. A value from 2 to 8 time quanta can be set. TSEG1.3 TSEG1


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PDF App188/1 H8/38057 H8/38037 H8/38057 BD-F070 PMR97 bosch can 2.0B HF64F F600 F601 F602 128x11 bosch can 2.0B time setting HF642
NS892404

Abstract: max8774 ns892402P PC87541 RS485M nsk XTAL osc AMD Athlon 64 X2 4800 pin diagram quanta ICS951462 c144 sony
Text: Touch Pad PG 28 Flash ROM PG 29 SWITCH LED PG 29 A PROJECT : KW3S Quanta Computer Inc. Size Date , PCIRST# PROJECT : KW3S Quanta Computer Inc. Size Date: 5 4 3 2 Document Number SYSTEM INFORMATION , Date: 5 4 3 2 PROJECT : KW3S Quanta Computer Inc. Document Number CLOCK GENERATOR ICS951462 , : KW3S Quanta Computer Inc. Size Date: 5 4 3 2 Document Number ATHLON64 HT I/F Thursday, July 13 , C70 180P C69 180P PROJECT : KW3S Quanta Computer Inc. Size Date: Document Number ATHLON64 DDRII


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PDF 133/166MHz 100MHz 96MHz 48MHz 14MHz ICS951462 RS485MC RTL8101Eto GPIO31" GPIO25" NS892404 max8774 ns892402P PC87541 RS485M nsk XTAL osc AMD Athlon 64 X2 4800 pin diagram quanta ICS951462 c144 sony
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