The Datasheet Archive

FFT-5-13-X-X-FC/APC-X datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
FFT-5-13-X-X-FC/APC-X FFT-5-13-X-X-FC/APC-X ECAD Model DiCon Fiberoptics Fused Fiber Coupler Original PDF

FFT-5-13-X-X-FC/APC-X Datasheets Context Search

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1998 - c code for convolution

Abstract: Spectrum Signal Processing
Text: the 1024 samples held in XX[ ] into the 513 samples held in REX[ ] & IMX[ ], the real and Chapter , in the 513 points of REX[ ], and the imaginary part being placed in the 513 points of IMX[ ]. Lines , mythical IFFT subroutine in line 450, which transforms the 513 points held in REX[ ] & IMX[ ] into the


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2012 - iq analyzer

Abstract: No abstract text available
Text: . 2 Frequency and Time Specifications Frequency range Option 503 Option 507 Option 513 Option , units 5 Frequency response RF/MW (Option 503, 507, 513 , 526) 9 kHz to 10 MHz 10 MHz to 3.6 GHz , (P03, P07) RF/MW (Option 503, 507, 513 , 526) Preamp on (P03, P07, P32, P44) Millimeter-wave (Option 532 , ) Options 503, 507, 513 , 526 10 MHz to 3.6 GHz 3.6 to 26.5 GHz 26.5 to 44 GHz 1 Hz to 3 MHz RBW 4, 5, 6, 8 , ) RF/MW (Option 503, 507, 513 , 526) Preamp on RF/MW (Option 503, 507, 513 , 526) Millimeter-wave (Option


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PDF N9010A 5989-6529EN iq analyzer
2012 - Not Available

Abstract: No abstract text available
Text: 10 MHz to 3.6 GHz 10 MHz to 7 GHz Option 513 10 Hz to 13.6 GHz 10 MHz to 13.6 GHz Option , (Option 503, 507, 513 , 526) 9 kHz to 10 MHz ± 3.2 dB 9 kHz to 10 MHz ±0.6 dB ±0.28 dB , GHz ±3.2 dB ±1.42 dB Preamp on (P03, P07) RF/MW (Option 503, 507, 513 , 526) 100 kHz to , ) (≥ 10 dB input attenuation) Options 503, 507, 513 , 526 < 1.2:1 nominal < 1.8:1 nominal N/A , compression (two-tone) Total power at mixer input RF/MW (Option 503, 507, 513 , 526) 20 MHz to 26.5 GHz


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PDF N9010A updat12 5989-6529EN
2012 - Not Available

Abstract: No abstract text available
Text: Option 503 NA 9 kHz to 3.0 GHz Option 507 NA 9 kHz to 7.5 GHz Option 513 9 kHz to , 21.05 GHz 8 4 20.95 to 22.85 GHz 9 4 22.75 to 24.25 GHz 10 MW (Option 513 , 526 , 513 or 526). 2. Analysis bandwidth is the instantaneous bandwidth available around a center frequency , (Option 513 , 526) 100 kHz to 1 MHz Displayed average noise level (DANL) to +20 dBm 1 MHz to 7.5 GHz MW (Option 513 /526) Preamp off Displayed average noise level (DANL) to +23 dBm Preamp on


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PDF N9000A 5990-4327EN
Y12 305

Abstract: CI 7408 el 7406 itt 789 sn74as8838 SN74AS8839 AS8839
Text: ; Raleigh (919) 876-2725. OHIO: Beachwood (216) 464-6100; Dayton ( 513 ) 258-3877. OKLAHOMA: Iblaa (918 , ; Kierulff (919) 872-8410; Marshall (919) 878-9882. OHIO: Cincinnati: Graham ( 513 ) 772-1661; Cleveland , ) 885-8362; Dayton: Arrow ( 513 ) 435-5563; Graham ( 513 ) 435-8660; Kierulff ( 513 ) 439-0045; Marshall ( 513


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PDF SN74AS8839 32-Bit 16-bit 85-pin 32-bit, 16-bit, Y12 305 CI 7408 el 7406 itt 789 sn74as8838 AS8839
2001 - W814

Abstract: W820 W830 w842 adsp 21xx fft calculation w849 16 point DIF FFT using radix 4 fft W808 32 point fast Fourier transform using floating point DFT radix
Text: Figure 5.13 . Two representations of the butterfly are shown in the diagram: the top diagram is the , ­1 B = a ­ bWNr Figure 5.13 COMPUTATION OF AN 8-POINT DFT IN THREE STAGES USING , round off errors). 5.13 FAST FOURIER TRANSFORMS BIT REVERSAL EXAMPLE FOR N = 8 I Decimal


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PDF ADSP-2100 ADSP-21000 W814 W820 W830 w842 adsp 21xx fft calculation w849 16 point DIF FFT using radix 4 fft W808 32 point fast Fourier transform using floating point DFT radix
1999 - fft algorithm verilog

Abstract: verilog for 8 point fft vhdl for 8 point fft vhdl for 8 point fft in xilinx vfft1024 fft algorithm system generator fft 4116 memory 1024-POINT XCV300
Text: START BUSY 256 512 768 1 257 513 769 2 258 514 770 3 259 515 771 4 260 516 772 5 261 0 256 512 768 1 257 513 769 2 , 1011 1015 1019 1023 20 256 512 0 768 1 257 513 1 4094 4095 4096 Figure 15


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PDF 1024-Point Dec17 1024-point 16-bit fft algorithm verilog verilog for 8 point fft vhdl for 8 point fft vhdl for 8 point fft in xilinx vfft1024 fft algorithm system generator fft 4116 memory XCV300
1999 - 1024-Point

Abstract: fft algorithm FFT 1024 point fft algorithm verilog Mem 5116 verilog for 8 point fft XCV300 16 point DIF FFT using radix 4 fft
Text: ADDRR_X 0 256 512 768 0 DI_[R|I] 1 256 512 768 257 513 769 2 1 257 513 769 258 , 20 0 256 512 0 768 1 257 513 1 4094 4095 Figure 15: December 17


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PDF 1024-Point 16-bit fft algorithm FFT 1024 point fft algorithm verilog Mem 5116 verilog for 8 point fft XCV300 16 point DIF FFT using radix 4 fft
2013 - N9030A-508

Abstract: No abstract text available
Text: N9030A-503 3 Hz to 3.6 GHz N9030A-508 3 Hz to 8.4 GHz N9030A- 513 3 Hz to 13.6 GHz N9030A-526 3 , GHz 10 MHz to 8.4 GHz Option 513 3 Hz to 13.6 GHz 10 MHz to 13.6 GHz Option 526 , Option 503, 508, 513 , or 526) Display range Log scale 0.1 to 1 dB/division in 0.1 dB steps 1 , ) RF/MW (Option 503, 508, 513 , 526) 3 Hz to 10 MHz 10 to 20 MHz 20 MHz to , ) RF/MW (Option 503, 508, 513 , 526) 9 to 100 kHz 100 kHz to 50 MHz 50


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PDF N9030A N9030A-503 N9030A-508 N9030A-513 N9030A-526 N9030A-543 N9030A-544 N9030A-550 5990-3952EN N9030A-508
1997 - sinc filter in Delta sigma modulation

Abstract: TLC320AD55 successive approximation adc ic V.34 HALF DUPLEX QAM quadrature bandpass sigma-delta ADC TLC320AD58 HP33120A function generator HP33120A TLC320AC01 viterbi
Text: implemented. 5-13 Multimedia Products TLC320AD55 - Sigma Delta AIC Features Single 5 V Power , 5-13 Figure 5-13 TLC320AD55 - DAC Distortion and Noise Measurement Figure 5-13 shows an FFT


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PDF TLC320AC01 TLC320AC02 TLC320AD55 TLC320AD56 sinc filter in Delta sigma modulation TLC320AD55 successive approximation adc ic V.34 HALF DUPLEX QAM quadrature bandpass sigma-delta ADC TLC320AD58 HP33120A function generator HP33120A TLC320AC01 viterbi
2007 - fft matlab code using 16 point DFT butterfly

Abstract: fixed point goertzel matlab code using 8 point DFT butterfly matlab code for n point DFT using fft 8-point matlab fixed point iir filter 8point fft matlab C8051F360 samples 2 point fft C8051F360
Text: 11.6 11.6% 289 2.9 2.9% 10th order FIR filter 513 20.5 20.5% 513 5.2


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PDF AN219 fft matlab code using 16 point DFT butterfly fixed point goertzel matlab code using 8 point DFT butterfly matlab code for n point DFT using fft 8-point matlab fixed point iir filter 8point fft matlab C8051F360 samples 2 point fft C8051F360
2000 - 1024-POINT

Abstract: verilog for 8 point fft EM 5135 8 point fft xilinx 16 point DIF FFT using radix 4 fft ifft tms ifft 16 point DIF FFT using radix 2 fft XCV300 64 point FFT radix-4
Text: 0 256 512 768 1 257 513 769 2 2 58 514 770 3 2 59 5 15 , 512 768 1023 0 1011 1015 1019 1023 20 256 512 0 768 1 257 513 1


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PDF 1024-Point 1024-point 16-bit verilog for 8 point fft EM 5135 8 point fft xilinx 16 point DIF FFT using radix 4 fft ifft tms ifft 16 point DIF FFT using radix 2 fft XCV300 64 point FFT radix-4
2000 - 1024-Point

Abstract: fft algorithm verilog em 18 reader module 16 point DIF FFT using radix 2 fft em 18 reader module pin diagram 16 point DIF FFT using radix 4 fft sc 4145 FFT 1024 point 512 point fft xilinx Schematic ifft
Text: 0 256 512 768 1 257 513 769 2 2 58 514 770 3 2 59 5 15 , 768 1 257 513 1 4094 4095 4096 Figure 15: TMS core configuration ­ FFT start timing


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PDF 1024-Point 1024-point 16-bit fft algorithm verilog em 18 reader module 16 point DIF FFT using radix 2 fft em 18 reader module pin diagram 16 point DIF FFT using radix 4 fft sc 4145 FFT 1024 point 512 point fft xilinx Schematic ifft
2008 - fft matlab code using 16 point DFT butterfly

Abstract: matlab code using 8 point DFT butterfly Sine Wave Generator using 8051 FDATOOL fixed point goertzel matlab code for n point DFT using fft 2 point fft C8051F120 goertzel uart with fir filters
Text: 11.6 11.6% 289 2.9 2.9% 10th order FIR filter 513 20.5 20.5% 513 5.2


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PDF AN219 fft matlab code using 16 point DFT butterfly matlab code using 8 point DFT butterfly Sine Wave Generator using 8051 FDATOOL fixed point goertzel matlab code for n point DFT using fft 2 point fft C8051F120 goertzel uart with fir filters
1993 - 3C56

Abstract: 84A4 B094 A03F 9B18 C946 6E2d 7A41 7A43 IDT71256
Text: Technology Inc. 35 Rockridge Road Englewood, OH 45322 Tel: 513 832-2543 Fax: 513 832-2841 Los Angeles


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PDF AN542 3C56 84A4 B094 A03F 9B18 C946 6E2d 7A41 7A43 IDT71256
DSP56001

Abstract: 32X24 16 bit full adder
Text: of the GDB are used; the upper portion is truncated. 5.1.3 Modifier Register Files (Mn) Each of , . An example of address register indirect modulo addressing is shown in Figure 5-13 Starting at , MOVE instruction in Figure 5-13 takes the contents of the X0 register and moves it to a location in , N2 (84) (75) XD BUS R2 (69) 21 X0 0.010 00000 (64) k=5 Figure 5-13


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PDF DSP56000/DSP56001 DSP56001 32X24 16 bit full adder
1995 - 16 bit full adder

Abstract: DSP56001 8 bit binary full adder
Text: of the GDB are used; the upper portion is truncated. 5.1.3 Modifier Register Files (Mn) Each of , addressing is shown in Figure 5-13 Starting at location 64, a circular buffer of 21 stages is created. The , contents of R0 and sets R0=0. The MOVE instruction in Figure 5-13 takes the contents of the X0 register , 5-13 Modulo Modifier Example new value of R2 is not 90 (75+ 15), which would be the case if linear


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PDF DSP56000/DSP56001 32x24 256x24 256x24RIGINAL 16 bit full adder DSP56001 8 bit binary full adder
2009 - N9010A-503

Abstract: N9010A N6171A N9068A-2FP N9010A-513 N9061A-2FP N9010A-1CP 5989-6126EN N9075a-2FP N9010A-526
Text: Agilent EXA Signal Analyzer N9010A Data Sheet Available frequency range N9010A-503 N9010A-507 9 kHz to 7.0 GHz N9010A- 513 9 kHz to 13.6 GHz N9010A-526 LXI class C certified 9 kHz , 3.6 GHz 10 MHz to 3.6 GHz Option 507 9 kHz to 7.0 GHz 10 MHz to 7.0 GHz Option 513 9 , Option 507 1 1 3.5 to 8.4 GHz Options 513 , 526 2 2 8.4 to 13.6 GHz Options 513 , -507 Frequency range, 9 kHz to 7.0 GHz N9010A- 513 Frequency range, 9 kHz to 13.6 GHz N9010A


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PDF N9010A N9010A-503 N9010A-507 N9010A-513 N9010A-526 cdma2000 5989-6529EN N9010A-503 N9010A N6171A N9068A-2FP N9010A-513 N9061A-2FP N9010A-1CP 5989-6126EN N9075a-2FP N9010A-526
1998 - wiener filter

Abstract: photodiode amplifier blackman window digital filter sinc filter Galaxy Power single phase to three phase conversion in 3 phase moving average filter
Text: selected, not some mathematical equation. In this example, there are 513 samples spread between 0 and 0.5 , , these concerns are usually small, and 513 is a good length for most applications. 297 298 The , FIGURE 17-1 Example of FIR filter design. Figure (a) shows the desired frequency response, with 513 , (41 in the filter kernel, plus 983 zeros), results in 513 samples between 0 and 0.5. As shown in Fig


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1998 - synchronizer megafunction

Abstract: ac685 8251 uart vhdl Viterbi Trellis Decoder texas Nova Engineering max plus flex 7000 convolutional interleaver vhdl implementation of 2-d discrete wavelet transform sican uart with fir filters
Text: , USA Telephone: [ 513 ] 860-3456 Email: info@nova-eng.com DSP http://www.hammercores.com


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PDF 7000MAX M-SG-MEGAFCTN-01/J synchronizer megafunction ac685 8251 uart vhdl Viterbi Trellis Decoder texas Nova Engineering max plus flex 7000 convolutional interleaver vhdl implementation of 2-d discrete wavelet transform sican uart with fir filters
Ruscak

Abstract: undersampling 1992 quadrature bandpass sigma-delta ADC walt Kester AD9042 ad9101 trends AM receiver kirsten fleming radio frequency receiver low if sigma-delta adc
Text: residue path. A block diagram is shown in Figure 5.13 . A proprietary graycode architecture is used to , AD9042 12-BIT, 40MSPS ADC Figure 5.13 AD9042 12-BIT, 40MSPS ADC KEY SPECIFICATIONS Input Range: 1V


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PDF SC-17, 150MSPS 12-Bit 50MSPS Ruscak undersampling 1992 quadrature bandpass sigma-delta ADC walt Kester AD9042 ad9101 trends AM receiver kirsten fleming radio frequency receiver low if sigma-delta adc
mini project using ic 555

Abstract: 2435 SSTL_18 EP2C35 mini-lvds source driver 753 53 2525 401 CII51005-3 EP2C20 EP2C50 SSTL-18
Text: 5­13 for more information. RCONF values are based on characterization. RCONF = VCCIO/IRCONF. RCONF , , Volume 1 Altera Corporation April 2007 DC Characteristics & Timing Specifications Table 5­13 shows the Cyclone II device pin capacitance for different I/O pin types. Table 5­13 . Device , Input capacitance for clock pin. 5 pF Note to Table 5­13 : (1) Power Consumption , April 2007 5­13 Cyclone II Device Handbook, Volume 1 Timing Specifications consumed varies


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PDF CII51005-3 mini project using ic 555 2435 SSTL_18 EP2C35 mini-lvds source driver 753 53 2525 401 EP2C20 EP2C50 SSTL-18
1999 - sican

Abstract: QQ P 358 C16550 EPF10K50E INL03994 microchannel V8-uRISC
Text: Circle Freeway Drive, Cincinnati, OH 45246-1105 ( 513 ) 860-3456 info@nova-eng.com


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PDF 20KFLEXFLEX 10KFLEX 10KEFLEX 8000FLEX 6000MAXMAX 9000MAX 7000MAX M-SG-MEGAFCTN-02/J sican QQ P 358 C16550 EPF10K50E INL03994 microchannel V8-uRISC
2001 - 16 QAM modulation matlab code

Abstract: lx5280 CZ80PIO uart 8250 PLD-10 qpsk simulink matlab CRC matlab OFDM DSP Builder lEXRA lx5280 EP20K100E
Text: ) 5 Circle Freeway Drive, Cincinnati, OH 45246-1105 ( 513 ) 860-3456 info@nova-eng.com http


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PDF AMPP15 16 QAM modulation matlab code lx5280 CZ80PIO uart 8250 PLD-10 qpsk simulink matlab CRC matlab OFDM DSP Builder lEXRA lx5280 EP20K100E
2001 - qpsk simulink matlab

Abstract: 16 QAM modulation matlab code Ncomm OFDM Matlab code NetLogic lx5280 altera CORDIC ip CRC matlab Altera digilab 10k10 lEXRA lx5280
Text: ) 5 Circle Freeway Drive, Cincinnati, OH 45246-1105 ( 513 ) 860-3456 info@nova-eng.com http


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PDF AMPP15 qpsk simulink matlab 16 QAM modulation matlab code Ncomm OFDM Matlab code NetLogic lx5280 altera CORDIC ip CRC matlab Altera digilab 10k10 lEXRA lx5280
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