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ami c21

Catalog Datasheet MFG & Type PDF Document Tags

fairchild C 5803

Abstract: HFBR-5803 (AMI). Use of zero limiting codes such as Binary three Zero Substitution (B3ZS) for DS3 and STS-1 or , RNEG correspond to the received AMI signal from the coax. 2. The Altera PLD includes a 16 bits , Module AMI Receiver The AMI coded data is received and decoded in the transceiver 78P2241B. Since , Violation) will indicate that an AMI code violation has occurred. From the fiber to the gate array the , TPOS/TNRZ TNEG GND C19 0.1uF GND C20 0.1uF GND C21 0.01uF GND C22 0.01uF
TDK
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fairchild C 5803 HFBR-5803 74AC000 ELJF ECU-V1H222KBM K 2642 HFBR-520 78P2241TQFP EPM7064 TRU050 LT1719 74AC00-01

AIE MAGNETICS

Abstract: /CEPT Receiver or Repeater capable of extracting, regenerating and retiming of AMI encoded data as , for the demo boards are manufactured by three qualified vendors which are: Connect the AMI encoded , T1 R8 D2 R7 R5 T2 R9 R6 R25 C8 R15 R1 R12 D1 L1 C14 C4 C6 R17 R20 C21 L2 C3
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AIE MAGNETICS XR-T56L22 1N914

CLCC52

Abstract: CLCC52 land Temperature Range -40°C.105°C -40°C.105°C -40°C.105°C AMI Semiconductor ­ Oct. 05, Rev. 1.0, M , on the PCB AMI Semiconductor ­ Oct. 05, Rev. 1.0, M-20465-001 www.amis.com 2 AMIS , rate (fps) (non-triggered, interleaved integration) 137 107 74 11,800 245 123 61 AMI Semiconductor ­ , be set to always high, as shown in Figure 5. AMI Semiconductor ­ Oct. 05, Rev. 1.0, M , : Response of the Various Camera Modes AMI Semiconductor ­ Oct. 05, Rev. 1.0, M-20465-001 www.amis.com
AMI Semiconductor
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CLCC52 CLCC52 land AMIS-70700
Abstract: =-20dBm/1kHz Output is 50mW 0.3 2.5 % AM: Audio Distortion Factor WuXi YouDa Electronics , ¼F 1k 50kΩ RV1 C21 220μF SW2 12 19 L1 + 15 16 C5 10μF 14 17 WuXi YouDa Electronics
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YD1619
Abstract: Inversion (AMI) coding for reduced spectral radiation â¡ Differential receiver architecture for highly , a m XTALO AMI Line LO HLOl - D rive^y-" â  , LIL â  X T Data Recovery AMI Decoder FSYNC2 Output Framer B1 and 8 2 Channel , It is clocked to producc self-contained AMI pulses at a line rate of Designed for Terminal , from a single +5 V power supply. It uses AMI line coding for minimum spectral radiation and reduce -
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AK130 AK131 AK130/131 MT8950 00QHM T8994/58
Abstract: dB THD3 Vin3=60dBμV/10.7MHz Vin4=-20dBm/1kHz Output is 50mW 0.3 2.5 % AMï , ¼F C19 R6 0.1μF 1k 3 of 4 50kΩ RV1 C21 220μF SW2 12 19 L1 + 15 WuXi YouDa Electronics
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itt 3906

Abstract: premises Low amplitude pulse-shaped Alternate Mark Inversion (AMI) coding for reduced spectral radiation , Rectangular AMI Bits / Tdvwh ^ / VCC/2 + 1.25 LOH VCC/2 VCC/2-1.25 VCC/2+1.25 LOL VCC/2 VCC/2 - 1.25 I 1 , +D+M channels. It is clocked to produce self-contained AMI pulses at a line rate of 512 kbps. Designed for , a peak line signal of 625 mV on a 100 Cl line from a single +5V power supply. It uses AMI line , equalizer and then routed to the data recovery section. The recovered data signal is passed to the AMI
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itt 3906 LXT131 MT896 RS232
Abstract: .5 0 0 ] 6 0 . 96 C2.4 0 0 ] 5 0 . 42 [2 .3 0 0 ] 5 5.00 C2.2 0 0 ] 5 3 . 34 C2.1 0 0 ] 5 0 . 00 [2 .0 , UNLESS SPECIF m CtNCHÉS3 DIMENSIONS Ih m TOLERANCES CN i 2 PLC. CSC ± 0. ÎC.O C® B AMI H D R ASSY -
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T03B33-1 114-2S026
Abstract: [2 ,6 00 3 6 3 , 50 C2,5 0 0 ] 6 0 , 96 C2,4 0 0 ] 5 0 , 42 [2 .3 00 3 5 5.00 C2.2 0 0 ] 5 3 . 34 C2.1 , CtNCHÉS3 DIMENSIONS Ih m TOLERANCES CN i 2 PLC. CSC ± 0. ÎC.OC® B A AMI HDR A S S Y , VERT, S IN -
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DOOD15 AD-5122 AD-5705 T03B70-1 1-T03G70-5 1-T03G70-2

C9203

Abstract: RELE c4-2 [2 .3 0 0 3 5 5 .0 0 C2.2 0 0 ] 5 3 . 34 C2.1 0 0 ] 5 0 . 00 [2 .0 0 0 3 4 6 .2 6 C l .5 0 0 ] 4 5 . , . ÎC.OC® B AMI H D R ASSY, A RTANG, SING L E ROW SQ POST, FLAME RETARDANT THERMOPLASTIC
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C9203 RELE c4-2 C10003 C13003 AD-6161 2-T03635-1 O3E35-0 03635-S T03635-
Abstract: .4 0 0 ] 5 0 . 42 [2 .3 00 3 5 5.00 C2.2 0 0 ] 5 3 . 34 C2.1 0 0 ] 5 0 . 00 [2 .0 00 3 4 6.26 C l .50 0 , TOLERANCES CN i 2 PLC. CSC ±0. ÎC.OC® B AMI H D R ASSY, A CHK S-S-61 VERT, SING L E ROW SQ -
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2-T03B3B-1 O3630-9 O3630-6 O3630-3 1-TO3G30-2 O3030-9

AMI 602

Abstract: AN1687 DC COMPONENTS The prototypes for this application note were designed around AMI coding and will , all times. As can be seen, AMI coded signals have no overall DC component, again making AMI encoding a very attractive method for RF transmission. Figure 1. AMI Encoding Figure 2. DC Components , for an example. Use a multi­phase encoding scheme such as Alternate­Mark­Inversion (AMI). See Figure 1. AMI is a three phase, synchronous encoding technique which uses bipolar pulses to represent
Motorola
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AN1691 AMI 602 AN1687 C115 MC13145 MC13146 AN1691/D

robus r29

Abstract: real fm transmitter circuit diagram . AMI Encoding So far, we have only been concerned with the maximum data rates which can be , all times. As can be seen, AMI coded signals have no overall DC component, again making AMI encoding , such as Alternate­Mark­Inversion (AMI). See Figure 1. AMI is a three phase, synchronous encoding , designed around AMI coding and will be discussed in further detail. ARCHIVE INFORMATION ARCHIVE , duplex. 3. Data encoding/decoding ­ AMI. 4. Peak deviation ­ 80 kHz. 5. RF bandwidth ­ 330 kHz. 6
Motorola
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robus r29 real fm transmitter circuit diagram motorola FM TRANSCEIVER motorola DUAL CONVERSION FM TRANSCEIVER basic fm transmitter and receiver PC11210

real fm transmitter circuit diagram

Abstract: circuit diagram of wireless door lock system prototypes for this application note were designed around AMI coding and will be discussed in further detail , transmitted signal remain as close to zero as possible at all times. As can be seen, AMI coded signals have no overall DC component, again making AMI encoding a very attractive method for RF transmission. Figure 1. AMI Encoding Figure 2. DC Components 1. 2. 3. Freescale Semiconductor, Inc , . Use a multi­phase encoding scheme such as Alternate­Mark­Inversion (AMI). See Figure 1. AMI is a
Freescale Semiconductor
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circuit diagram of wireless door lock system TRANSISTOR c104 transistor c114 digital ami c21 remote control door lock circuit motorola MC33411

6RI30G

Abstract: R601 « m m t& ve Rth(c-f) 0.10 °c/w C-21 6RI30G(30A) l^tèffiSI ! Characteristics * IK 16 (A) 12 , 194 m of SE a in a a Rîxl I ü VI» JU Ai m M â'žMi 3 I 0Bà HmSs HD S Jjo iâ'"1 nih ro m g
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R601 50/60H AC2500V

mxt 211

Abstract: I AMI positive receive data input. 30 RINN I AMI negative receive data input. 31 RLCLOCK 0 Signalling clock output. 32 XOUTP 0 AMI positive transmit data output. 33 XOUTN o AMI negative transmit data output. 34 AMIE o Multifunction pin. AMIE = 1 indicates an AMI error when this mode is selected. 35 VSS SUPPLY 36 CRCE O CRCE = 1 , 0 R/W FECI 23 35 T/C FRAMING BIT ERROR COUNTER 1 R/W AECO 24 36 AMI
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mxt 211 29C96 SLC-96 C300CS C300SDO C300SDI C300INT

mxt 211

Abstract: signalling and frame alignment in E1 compatible frame formatter D AMI or inverted AMI encoding with selectable "0" suppression mode : - B8ZS , clock (T1)/2.048 MHz primary clock (E1). 29 RINP I AMI positive receive data input. 30 RINN I AMI negative receive data input. 31 RLCLOCK O Signalling clock output. 32 XOUTP O AMI positive transmit data output. 33 XOUTN O AMI negative transmit data output. 34 AMIE O Multifunction pin. AMIE = 1 indicates an AMI error when this mode is
Temic Semiconductors
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signalling and frame alignment in E1 tsr1-24 SLC96 alarm frame format b30 c300 - 1 G704 29C94/29C96/29C318 29C94

history of automatic phase selector

Abstract: R2598 Kit AMI inputs When the IC switches into holdover mode, whereby the output frequencies are held , being +/-9.2 ppm. The I1 and I2 AMI composite sync inputs (64kHz and 8kHz) are biassed by the , VDD 100nF C13 DGND VDD(AMI) O8NEG O8POS GND(AMI) O10 O11 VSS_DIFFa VDD_DIFFa O6POS , 130 100 CC4 R25 R24 82 VDD C22 100n DGND VDD C21 100n DGND 100 CC2 CC3 R20 82 , , C7, C9, C10, C11, C12, C14,C23 C2 C4, C5 C16, C17 C18, C8, C22 C21 100nF ceramic SMT 100uF
Semtech
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ACS8510 NPE4816 R2598 history of automatic phase selector GR O11 OEN 10R 213E 95/98/NT4 EZ1086CT-3 BZV90C5V6 R2640

INTEL CORE I5 430

Abstract: tms 1944 /2.048 MHz) 2 x AMI 10 x TTL 2 x PECL/LVDS Programmable; 64/8 kHz (AMI) 2 kHz 4 kHz N x 8 kHz 1.544 , -3) T08 (AMI) = 64/8 kHz (composite clock 64 kHz + 8 kHz) TCK TDI TMS TRST TDO TO9 (TTL/CMOS) = , . 49 DC Characteristics: AMI Input/Output Port , ±10%. Supply Voltage: Digital supply to AMI output, +3.3 Volts ±10%. Supply Voltage: Digital supply for , GND_AMI GND_DIFF AGND P P P - Supply Ground: Digital ground for AMI output. Supply Ground
Semtech
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INTEL CORE I5 430 tms 1944 ISO9001

amd catalog

Abstract: ami c21 Source including: AMI 64/8kHz N x 8kHz 1.544MHz 2.048MHz 6.48M Hz 19.44MHz 25.92MHz 38.88MHz 51.84MHz , 51.84MHz 77.76MHz 155.52MHz AMI 64/8kHz 2kHz MFr-Sync 8kHz Fr-Sync IEEE 1149.1 JTAG Chip Clock , .38 AMI DC Characteristics , : +3.3 Volts. +/- 10% AMI VDD : +3.3 Volts. +/- 10% VDD5: +5 Volts. +/- 10% (only required for 5V , : Serial test data output. Updated on falling edge of TCK. TTLU AMI AMI AMI AMI TTL TTL Current
Semtech
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amd catalog TR62411 GR-1244
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