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Part Manufacturer Description PDF & SAMPLES
CS35L32-CWZR Cirrus Logic Audio Amplifier
CS3002-ISZ Cirrus Logic Operational Amplifier, 2 Func, 10uV Offset-Max, PDSO8, 0.150 INCH, LEAD FREE, MS-012, SOIC-8
CS3002-ISZR Cirrus Logic Operational Amplifier, 2 Func, 10uV Offset-Max, PDSO8, 0.150 INCH, LEAD FREE, MS-012, SOIC-8
CS44600-CQZR Cirrus Logic Audio Amplifier, 6 Channel(s), 1 Func, CMOS, PQFP64, LEAD FREE, MS-022, LQFP-64
CS35L01-CWZR Cirrus Logic Audio Amplifier, 2.9W, 1 Channel(s), 1 Func, Hybrid, PBGA9, 1.20 X 1.20 MM, LEAD FREE, MO-220, WLCSP-9
CS35L00-CNZR Cirrus Logic Audio Amplifier, 2.7W, 1 Channel(s), 1 Func, Hybrid, PDSO10, 3 X 3 MM, LEAD FREE, MO-220, DFN-10

"antilogarithmic Amplifier"

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: 10 MHz BIPOLAR LOGARITHMIC AMPLIFIER FEATURES â'¢ WIDE BANDWIDTH: 10 MHz â'¢ WIDE DYNAMIC RANGE , logarithmicamplifierisdesigned to perform logarithmic or antilogarithmic functions on the signals applied to its inputs. Square , for logarithmic and antilogarithmic amplifiers, where wide available bandwidth and wide dynamic range , amplifier. The power supply requirements are siandard ±15 volt inputs, and range from ±5 volts to  , simple operational amplifier. The 2910 can easily be compensated with the application of a single -
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LA 2910 1k trimpot vertical antilog Optical Electronics potentiometer Trimpot TWX-910-952-1283 3-10-M
Abstract: Antilogarithmic DAC Terminal B RDAC can be operated as a antilogarithmic DAC, as shown in Figure 2. R35 , 0 20 40 60 80 DECIMAL CODE Figure 3. Antilogarithmic Gain 100 120 , Equation 1. Rev. 0 | Page 4 of 16 Evaluation Board User Guide UG-396 Signal Amplifier RDAC can be operated as an inverting or noninverting signal amplifier supporting linear or pseudo logarithmic gains. Table 5 shows the available configurations. The noninverting amplifier with linear gain is Analog Devices
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AD5246 EVAL-AD5246DBZ UG10624-0-5/12
Abstract: each decade change of input. Ta Range: 0°Cto+70°C JE ICL8049 Log/Antilog Amplifiers Antilogarithmic , ICL8063 Power Transistor Driver/ Amplifier Converts ±12V outputs from op amps and other devices to  -
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ICM7206 ICL8038 AD590 ICL8069 ICL8048 CA3164A Generator voltage-controlled analog multiplier ICL8013 CA3164
Abstract: Oto +70° C 16 pin Plastic DIP LA-8048-CC 60mV anti-logarithmic amplifier oper. temp model ,  L LA-8048, LA-8049 Monolithic Log Amplifier Monolithic Antilog Amplifier FEATURES â'¢ 1/2 , The 8048 is a monolithic logarithmic amplifier capable of handling six decades of current input, or , , reference current and offset voltage are externally adjustable. The 8049 is the antilogarithmic counterpart , = vREF,5fig.>,p(;_z5V2X^M] (8, OFFSET AND SCALE FACTOR ADJUSTMENT As with the log amplifier, the -
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circuit diagram of antilog circuit D 8049 C 2- 398c antilog amplifier 8049 400C LA-8048-BC LA-8049-BC LA-8049-CC
Abstract: and output operating voltage ranges available from the operational amplifier. For example, an input , the operational amplifier may need a 4V "overhead margin" from each supply rail. However, for a , operating voltage left to supply an output. As an example, a simple DC inverting amplifier connected as a 10X gain amplifier can use a 1k and 10k resistor gain setting network. The maximum current drain , 250uA. Using a low voltage FET input operational amplifier, on the other hand, the resistors used may Advanced Linear Devices
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ALD1701 IN914 db opera 415 ALD1706 ALD2701 AN17 2N2222A
Abstract: ICL8049 CT T ODU MEN E PR PLACE -7747 T 2 OLE RE 0-44 OBS ENDED 1-80 .com MM ications arris l ECO h NO R ntral App entapp@ c Ce : Call or email July 1999 Features Antilog Amplifier Description · Full Scale Accuracy . . . . . . . . . . . . . . . . . . . . . . . . . 0.5% o The ICL8049 is a monolithic antilogarithmic amplifier that is fully temperature , is as follows: OUT - = I V As with the log amplifier, the antilog amplifier requires Harris Semiconductor
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ICL8049BCJE ICL8049CCJE ICL4049BC ICL8049CC Monolithic Transistor Pair DB500
Abstract: ANTI-LOGARITHMIC AMPLIFIER OPER. TEMP MODEL MAX. ERROR RANGE PACKAGE LA-8049-BC 10mV 0 to +70° C 16 pin , is^snaL LA-8048, LA-8049 Monolithic Log Amplifier Monolithic Antilog Amplifier FEATURES â'¢ 1 , FET-lnput Op-Amps GENERAL DESCRIPTION The 8048 is a monolithic logarithmic amplifier capable of handling , the antilogarithmic counterpart of the 8048; it nominally generates one decade of output voltage for , ADJUSTMENT As with the log amplifier, the antilog amplifier requires three adjustments. The first step is to -
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8043 diode log and antilog amplifier log amplifier la log ic 8049 bc 303 transistor
Abstract: antilogarithmic amplifier that is fully temperature compensated and is nominally designed to provide 1 decade of , ICL8049 ® CT T OD U ME N E PR PLACE ter at T OLE RE c t Ce n O BS E NDE D ppor il.com/ts M Su COM chnical w.inters E NO R our Te or ww act ERSIL cont -INT 8 1-88 July 1999 Features Antilog Amplifier Description · Full Scale Accuracy . . . . . . . . . . . . . . . . . . . , - = I V As with the log amplifier, the antilog amplifier requires three adjustments. The Intersil
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Abstract: 29 31 32 33 34 antilogarithmic 44 45 46 47 48 49 51 52 53 54 - Code for resistance law and value BC Components
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Abstract: (anti-logarithmic) digital-to-analog transfer function. Perhaps the easiest way to visualize what a LOGDAC does is , applied to the on chip feedback resistor (RFB) and the amplifier output is connected to the VtN terminal of the LOGDAC. The LOGDAC then ends up in the amplifier's feedback loop, thus the circuit provides dB -
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AN-208 AD7100 AD7115 AD7118 AD7111 A071H 01db 20LOG10
Abstract: 25LKB crimp Tapers A = Linear B = Logarithmic C = Antilogarithmic - = O ther tapers available Shafts 1 = Fig -
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115 piher 390986
Abstract: (anti-logarithmic) digital-to-analog transferfunction. Perhaps the easiest way to visualize what a LOGDAC® does is , reference voltage is applied to the on chip feedback resistor (RFB) and the amplifier output is connected to the ViN terminal of the LOGDAC. The LOGDAC then ends up in the amplifier's feedback loop, thus the -
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anti-log TABLE EQN10 EQN11
Abstract: SSM-2013 PMÏ) VOLTAGE-CONTROLLED AMPLIFIER P ré c isio n M o n o lith ic s Inc. and , attenuation is con­ trolled by applying a control voltage to the EXPO pin 9. The amplifier offers wide , antilogarithmic control port make this VCA a versatile analog building block. With 800kHz bandwidth and 94dB S/N , -2013 is a high-performance monolithic Class A Volt­ age Controlled Amplifier. Operating with current , S C H E M A T IC 7 7/89, Rev. A SSM-2013 VOLTAGE-CONTROLLED AMPLIFIER A B S O L U T E M -
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14-PIN 2013P
Abstract: INSTRUCTIONS Optical Electronics Incorporated BIPOLAR LOGARITHMIC AMPLIFIER FEATURES â'¢ LOGARITHMIC FUNCTION â , '¢ SONAR â'¢ RADAR â'¢ INFRARED DETECTION â'¢ VIDEO LOG DESCRIPTION The 2531A bipolar logarithmic amplifier , CopyRight 2003 OPTICAL ELECTRONICS INC DtE D INTRODUCTION The 2531A bipolar logarithmic amplifier can be , amplifier is used in the 2531 A, which compensates for temperature and provides a voltage output. o-isv - FIGURE 1. BASIC CONNECTIONS THEORY OF OPERATION The 2531A is basically an operational amplifier with -
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photo multiplier tube 10KHZ 2531A AH0605
Abstract: Voltage-Controlled ANALOG DEVICES Amplifier SSM-2013 outputs, the SSM-2013 is ideal when , control voltage to the EXPO pin 9. The amplifier offers wide bandwidth, easy signal summing and minimum , most applications. An extremely wide control range of 110dB regulated by a flexible antilogarithmic , monolithic Class A Volt­ age Controlled Amplifier. Operating with current mode inputs and [T -R E F , amplifier where the output current/input current transfer function is controlled by acontrol voltage -
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F-47Q
Abstract: AND INSTRUCTIONS Optical Electronics Incorporated BIPOLAR LOGARITHMIC AMPLIFIER FEATURES â , bipolar logarithmic amplifier is designed to perform logarithmic functions to signals applied to its , OPTICAL ELECTRONICS INC DtE D INTRODUCTION The 2531A bipolar logarithmic amplifier can be employed , amplifier is used in the 2531 A, which compensates for temperature and provides a voltage output. o-isv - FIGURE 1. BASIC CONNECTIONS THEORY OF OPERATION The 2531A is basically an operational amplifier with -
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Logarithmic Amplifier
Abstract: Amplifier SSM-2013 I FEATURES SSM-2013 is ideal when logarithmic control of gain is needed. The , amplifier offers wide bandwidth. easy signal summing and minimum external component count. The SSM-2013 can , applications. An extremely wide control range of 11Ode regulated by a flexible antilogarithmic control port , mode amplifier where the output cu rrent/input current transfer function is controlled by a control , tradeoffs between gain/attenuation for the SSM. 2013 versus the gain of the output amplifier/current to Analog Devices
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SSM2013P ssm2013 tempsistor 60011A1
Abstract: that the logarithmic and antilogarithmic logarithmic function was adopted. functions does involve , reduced to a simple addition of their the logarithmic and antilogarithmic logarithms, division becomes Fast Analog Solutions
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TAN-54 TRAC
Abstract: ) Model h(2.5) h(5) v(12.5) v(15) v(17.5) D Tapers A = Linear B = Logarithmic C = Antilogarithmic - = -
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Piher trimmer 100k Piher* pot 100k Piher* trimmer Piher potentiometer 1M30 Piher PTC15 L10-5 D-100 B-200
Abstract: DMiem ICL8048, ICL8049 Monolithic Log Amplifier Monolithic Antilog Amplifier FEATURES â'¢ 1 , FET-lnput Op-Amps GENERAL DESCRIPTION The 8048 is a monolithic logarithmic amplifier capable of handling , the antilogarithmic counterpart of the 8048; it nominally generates one decade of output voltage for , amplifier, the antilog amplifier requires three adjustments. The first step is to null out the offset , ) EFFECT OF VARYING "K" ON THE LOG AMPLIFIER -
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transistor bc 103 8048* log amplifier 8048c IL11 8048CC 8048BC
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