ltc1565-31is8-trpbf Linear Technology Corporation, ltc1565-31is8-trpbf Datasheet
ltc1565-31is8-trpbf
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ltc1565-31is8-trpbf Summary of contents
Page 1
... LC filters, the LTC1565-31 achieves this selec- tivity with a linear phase response in the passband. With 5% accuracy of the cutoff frequency, the LTC1565-31 can be used in applications requiring pairs of matched filters, such as transceiver I and Q channels. Furthermore, the differential inputs and outputs provide a simple interface for these wireless systems ...
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... MAXIMUM (Note 1) Total Supply Voltage ............................................... 11V Power Dissipation ............................................. 500mW Operating Temperature Range LTC1565-31CS8 ..................................... LTC1565-31IS8 ................................. – Storage Temperature Range ................ – 150 C Lead Temperature (Soldering, 10 sec)................. 300 C ELECTRICAL CHARACTERISTICS temperature range, otherwise specifications are at T unless otherwise specified. ...
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... G01 LTC1565-31 MIN TYP MAX – 400 – 400 2.49 2.51 2.52 4.2 3.3 2.9 2 specified for a 3.8 square inch test JA Passband Gain and Delay vs Frequency 2.0 GAIN 1.9 ...
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... LTC1565- TYPICAL PERFOR A CE CHARACTERISTICS Passband Gain vs Frequency Over Temperature 0 0.4 0.3 0.2 – –0.1 –0.2 –0.3 –0.4 –0.5 25k 100k 400k FREQUENCY (Hz) 1565 G03 Common Mode Rejection Ratio 110 P 100 ...
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... LTC1565-31 goes into the current saving shutdown mode. Pin 5 has pull-up current. Leaving Pin 5 open will place the LTC1565-31 in its normal operating mode. – OUT, + OUT (Pins 7, 8): Output Pins. Pins 7 and 8 are the filter differential output. Each pin can drive 1k or 300pF loads ...
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... U U APPLICATIONS INFORMATION Interfacing to the LTC1565-31 The difference between the voltages at Pin 1 and Pin 2 is the “differential input voltage.” The average of the voltages at Pin 1 and Pin 2 is the “common mode input voltage.” The difference between the voltages at Pin 7 and Pin 8 is the “ ...
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... THD versus output common mode voltage for a 2V mode input voltage that is 0.5V below mid supply. Figure 7. THD vs Common Mode Output Voltage 3.0 3.5 ) P-P 1565-31 F06 Figure 8. THD vs Common Mode Output Voltage LTC1565-31 differential input voltage and a common P 100kHz IN P-P V ...
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... F AMPLIFIERS A4 AND A5 ALLOW MONITORING/MEASURING THE DIFFERENTIAL OUTPUT WITH A SINGLE-ENDED, GROUND- 6 REFERENCED INSTRUMENT 0 +IN +OUT 6 – –IN –OUT LTC1565- GND V 0 – V SHDN 0 TOTAL INTEGRATED NOISE 104 V RMS 118 V RMS = 650kHz CUTOFF TOTAL INTEGRATED NOISE • ...
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... LTC1565- GND 0.1 F 2.49k 4 5 – V SHDN NOTE: FOR SINGLE 5V SUPPLY CONNECTION, PIN 4 (LTC1565-31) AND PIN 4 (LT1809) SHOULD BE GROUNDED AND RESISTOR R2 SHOULD BE DC BIASED AT APPROXIMATELY 2.5V (SEE TEST CIRCUIT FOR SINGLE SUPPLY OPERATION +IN +OUT – ...
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... DATA 2 –IN 4.99k LTC1565-31 3 GND 0 – V Simple Pulse Shaping Circuit for Single 5V Operation, 2Mbps (1Msps) 4 Level Data 5V 4.99k 4.99k D1 1Msps 1 +IN DATA 10k 2 D0 –IN 4.99k LTC1565-31 3 GND 0 – +OUT OUT 7 – V –OUT OUT 0.1 F SHDN ...
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... TYP 0.014 – 0.019 (0.355 – 0.483) TYP LTC1565-31 ADC I DSP Q ADC 1565-31 TA03 0.150 – 0.157** (3.810 – 3.988) 2 ...
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... FREQUENCY (Hz) 1565 TA12 COMMENTS +IN +OUT V OUT1 –IN –OUT OUT2 U2 LTC1565-31 FGND GND 0.1 F – 0 SHDN 15645-31 TA11 5V = 500kHz or 1MHz CUTOFF = 150kHz (LTC1562), CUTOFF(MAX) = 300kHz (LTC1562-2) CUTOFF(MAX) = 256kHz CUTOFF(MAX) /f ...