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μpCl350C monolithic playback IC diagram

Published:2011/8/1 3:03:00 Author:Ecco | Keyword: monolithic playback IC

μpCl350C monolithic playback IC diagram
μpCl350C monolithic playback IC diagram
μpCl350C monolithic playback IC diagram

μPCl350C monolithic playback IC produced by Japan NEC (electrical) is widely used in a variety of small recorders, stereo systems etc. 1.μPCl350C block diagram and pin functions μPCl350C manifold is a complete recording circuit, which is composed of the preamplifier, automatic level control (ALC) and the power amplifier circuit. The manifold block diagram is shown in Figure 1-1. The IC uses 14-pin dual in-line package, and the integrated circuit pin functions and data are listed in Table 19-3.   (View)

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DRIECT_DC_DRIVE_INTERFACE_OF_A_TRAC

Published:2009/6/29 1:42:00 Author:May

DRIECT_DC_DRIVE_INTERFACE_OF_A_TRAC
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50_kHz_BANDWIDTH

Published:2009/6/29 1:41:00 Author:May

50_kHz_BANDWIDTH
Three transistor pairs in CA3600E array are parallel-connected with output stage of CA3130 bipolar M0S opamp to boost current-handling capability about 2.5 times. Use of feedback gives closed-loop gain of 48 dB. Typical large-signal bandwidth is 50kHz for 3 dB down-″Circuit ldeas for RCA Linear ICs、″RCA Solid State Division、Somerville,NJ,1977,p 12   (View)

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HIGH_SPEED_SHIELD_LINE_DRIVER_

Published:2009/6/29 1:39:00 Author:May

HIGH_SPEED_SHIELD_LINE_DRIVER_
HIGH_SPEED_SHIELD_LINE_DRIVER_

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COAXIAL_CABLE_DRIVER_

Published:2009/6/29 1:38:00 Author:May

COAXIAL_CABLE_DRIVER_
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VARIABLE_BIPOLAR_CLAMPING

Published:2009/6/29 1:37:00 Author:May

VARIABLE_BIPOLAR_CLAMPING
Precision comparator provides independent regulation of both output voltage limits without connection to comparison inputs. A2 and A3 are complementary precision rectifiers having independent positive and negative reference voltages, with both rectifiers operating in dosed loop through A1. A2 senses positive peak of Eo and maintains it equal to +Vclamp by adjusting voltage applied to D1. A3 and D3 perform similar function on negative peaks. Feedback network around output stage of A1 regulatesoutput voltage independently of inputs to A1. —W. G. Jung, IC Op-Amp Cookbook, Howard W. Sams, Indianapolis, IN, 1974, p 228-229.   (View)

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200_ns_sample_hold

Published:2009/7/25 0:07:00 Author:Jessie

200_ns_sample_hold
This circuit features an acquisition time of less than 200 ns, a common-mode input range of±3 V, drop of 1μV/pts, hold step of 2 mV, hold settling time of 15 ns, and feedthrough rejection much greater than 100 dB. To calibrate, ground the input, repetitively pulse the sample/hold command line, and adjust the 1-kO pot for 0-V output.   (View)

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SOLENOID_DRIVER_

Published:2009/6/29 Author:May

SOLENOID_DRIVER_
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CRT_YOKE_DRIVER_

Published:2009/6/28 23:59:00 Author:May

CRT_YOKE_DRIVER_
CRT_YOKE_DRIVER_

Circuit Notes A 500 mV peak-to-peak triangular waveform about ground is input to the amplifier,gtvmg rlse to a 100 mA peak current to theinductor,.   (View)

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Analog_multiplier

Published:2009/7/25 0:05:00 Author:Jessie

Analog_multiplier
This circuit shows an LTC1043 (Fig. 1-4B) connected to form a high-precision (0.01%) analog multiplier. The LTC1043 clock is common to both sections, so the X and Y inputs are synchronized. To calibrate, short the X and Y inputs to 1.7320 V and trim for a 3-V output.   (View)

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CRT_DEFLECTION_YOKE_DRIVER_

Published:2009/6/28 23:57:00 Author:May

CRT_DEFLECTION_YOKE_DRIVER_
CRT_DEFLECTION_YOKE_DRIVER_

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HIGH_IMPEDANCE_METER_DRIVER_

Published:2009/6/28 23:56:00 Author:May

HIGH_IMPEDANCE_METER_DRIVER_
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HIGH_SPEED_LINE_DRIVER_FOR_MULTIPLEXERS

Published:2009/6/28 23:49:00 Author:May

HIGH_SPEED_LINE_DRIVER_FOR_MULTIPLEXERS
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BIFET_CABLE_DRIVER

Published:2009/6/28 23:48:00 Author:May

BIFET_CABLE_DRIVER
BIFET_CABLE_DRIVER
BIFET_CABLE_DRIVER

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RELAY_DRIVER__

Published:2009/6/28 23:46:00 Author:May

RELAY_DRIVER__
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HIGH_INPUT_IMPEDANCE

Published:2009/6/28 23:43:00 Author:May

HIGH_INPUT_IMPEDANCE
Use of JFET as isolator boosts input impedance of opamp to 22 megohms for low-frequency input signals.Impedance drops to 3.9 megohms as frequency increases to about 20 kHz. Overall gain of circuit is about 45 dB when using 18-V supply.- Audio Handbook, National Semiconductor, Santa Clara, CA, 1977, p 4-21-4-28.   (View)

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CAPACITIVE_LOAD_DRIVER

Published:2009/6/28 23:42:00 Author:May

CAPACITIVE_LOAD_DRIVER
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HIGH_SPEED_LASER_DIODE_DRIVER

Published:2009/6/28 23:41:00 Author:May

HIGH_SPEED_LASER_DIODE_DRIVER
Circuit NotesA faster driver, can supply higher gate current to switch the VN64GA very quickly. The circuit uses a VMOS totemple, stage to drive the high power switch.   (View)

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LOW_EMISSION_CD

Published:2009/6/28 23:38:00 Author:May

LOW_EMISSION_CD
LOW_EMISSION_CD
LOW_EMISSION_CD

Solid-state capacitor-discharge ignition system improves combustion efficiency by increasing spark duration. For 8-cylinder engine, normal CD system range of 180 to 300,ttS is increased to 600 ps below 4000 rpm the discharge lasts for one cycle or 300 pts because at higher speeds the power cycle has shorter times. Circuit uses 555 timer M1 as 2-kHz oscillator, with Q1-Q3 providing drive to Q4-Q5 and T, for converting battery voltage to about 400 VDC at output of bridge rectifier. When dis-tributor points open,Q7 turns on and triggers M2 connected as mono that provides gate drive pulses for SCR. Article describes operation of circuh in detail and gives waveforms at points a-i.-C. C. Lo, CD lgnition System Produces Low Engine Emissions, EDN Magazine, May 20, 1976, p 94, 96, and 98.   (View)

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High_Q_notch_filter

Published:2009/7/25 0:44:00 Author:Jessie

High_Q_notch_filter
High_Q_notch_filter

This circuit uses an LM110 connected to form a basic high-Q notch filter. The frequency range is determined by the values of R1 and C1, as shown by the equation. National Semiconductor, Linear Applications Handbook, 1991, p. 1202.   (View)

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