AD537
... enables the circuit to be used as a reliable temperature-tofrequency converter; in combination with the fixed reference output of 1.00 V, offset scales such as 0°C or 0°F can be generated. The low drift (1 µV/°C typ) input amplifier allows operation directly from small signals (e.g., thermocouples o ...
... enables the circuit to be used as a reliable temperature-tofrequency converter; in combination with the fixed reference output of 1.00 V, offset scales such as 0°C or 0°F can be generated. The low drift (1 µV/°C typ) input amplifier allows operation directly from small signals (e.g., thermocouples o ...
Key Sheet AD7792/AD7793
... Designed for the measurement of wide dynamic range, low frequency signals, such as those in thermocouple and resistance temperature detector (RTD) measurements, gas analysis, industrial process control, blood analysis, and portable instrumentation. Low power, flexible, high performance, low noise, 1 ...
... Designed for the measurement of wide dynamic range, low frequency signals, such as those in thermocouple and resistance temperature detector (RTD) measurements, gas analysis, industrial process control, blood analysis, and portable instrumentation. Low power, flexible, high performance, low noise, 1 ...
Laboratory Exercise 14 – Analog to Digital Conversion (A/D or ADC)
... analog voltage in the “real world” into a digital representation (a binary number) inside the computer. This seems kind of strange if you think about it, since analog signals contain much more precise information than do the digitized copies. This was a real bone of contention among audio enthusiast ...
... analog voltage in the “real world” into a digital representation (a binary number) inside the computer. This seems kind of strange if you think about it, since analog signals contain much more precise information than do the digitized copies. This was a real bone of contention among audio enthusiast ...
07LAB5_rev - University of Guelph Physics
... circuits. It is natural to ask if the two circuit types could be combined to perform subtraction or to find the difference between two voltages. A method of obtaining the difference between two voltages using one amplifier uses the circuit illustrated in Fig 5.1. ...
... circuits. It is natural to ask if the two circuit types could be combined to perform subtraction or to find the difference between two voltages. A method of obtaining the difference between two voltages using one amplifier uses the circuit illustrated in Fig 5.1. ...
click here - SMDP-VLSI
... at a cascade of CD amplifier followed by CG amplifier from vs1 to vo2 and CS amplifier from vs2 to v02. Similarly considering the output at transistor M1, vo1, we are looking at a cascade of CD amplifier followed by CG amplifier from vs2 to vo1 and CS amplifier from vs1 to v01. Assuming a total symm ...
... at a cascade of CD amplifier followed by CG amplifier from vs1 to vo2 and CS amplifier from vs2 to v02. Similarly considering the output at transistor M1, vo1, we are looking at a cascade of CD amplifier followed by CG amplifier from vs2 to vo1 and CS amplifier from vs1 to v01. Assuming a total symm ...
Isolated Converters Provide Positive or Negative Outputs from Plus
... Isolated DC-DC converters may be also be used with either a positive or a negative input voltage source, as long as the relative polarity of the input to the device is maintained. (See Fig. 6) The positive input (Vin) must be positive with respect to the input return. The input return must be kept n ...
... Isolated DC-DC converters may be also be used with either a positive or a negative input voltage source, as long as the relative polarity of the input to the device is maintained. (See Fig. 6) The positive input (Vin) must be positive with respect to the input return. The input return must be kept n ...
FEATURES PIN CONFIGURATION
... need additional input protection. Input voltages can be up to 40 V from the opposite supply rail. For example, with a +5 V positive supply and a −8 V negative supply, the part can safely withstand voltages from −35 V to 32 V. The part can handle large differential input voltages, even when the part ...
... need additional input protection. Input voltages can be up to 40 V from the opposite supply rail. For example, with a +5 V positive supply and a −8 V negative supply, the part can safely withstand voltages from −35 V to 32 V. The part can handle large differential input voltages, even when the part ...
MAX1186 Dual 10-Bit, 40Msps, 3V, Low-Power ADC with General Description
... The MAX1186 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, nine-stage ADCs. The MAX1186 is optimized for low-power, high dynamic performance applications in imaging, instrumentation, and digital communic ...
... The MAX1186 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, nine-stage ADCs. The MAX1186 is optimized for low-power, high dynamic performance applications in imaging, instrumentation, and digital communic ...
4. single stage bipolar junction transistor (bjt) amplifiers
... The unbypassed emitter resistor RE1 serves three functions: 1. Adjust the voltage gain to a desired value: When RE1 0 , the voltage gain of the amplifier is as high as it can be for the circuit at hand. Setting RE1 to a nonzero value provides a mechanism to decrease the gain to a desired value. 2. ...
... The unbypassed emitter resistor RE1 serves three functions: 1. Adjust the voltage gain to a desired value: When RE1 0 , the voltage gain of the amplifier is as high as it can be for the circuit at hand. Setting RE1 to a nonzero value provides a mechanism to decrease the gain to a desired value. 2. ...
BD37544FS
... If applied voltage, operating temperature range, or other absolute maximum ratings are exceeded, the LSI may be damaged. Do not apply voltages or temperatures that exceed the absolute maximum ratings. If you think of a case in which absolute maximum ratings are exceeded, enforce fuses or other physi ...
... If applied voltage, operating temperature range, or other absolute maximum ratings are exceeded, the LSI may be damaged. Do not apply voltages or temperatures that exceed the absolute maximum ratings. If you think of a case in which absolute maximum ratings are exceeded, enforce fuses or other physi ...
IOSR Journal of VLSI and Signal Processing (IOSR-JVSP)
... subsystems in silicon. In order to provide a cost effective solution, circuits designed in CMOS are implemented in a single system on chip. The 90nm ST Microelectronics Digital CMOS process, optimized for digital circuit design requires a lot of internal compensation for analog circuits to meet the ...
... subsystems in silicon. In order to provide a cost effective solution, circuits designed in CMOS are implemented in a single system on chip. The 90nm ST Microelectronics Digital CMOS process, optimized for digital circuit design requires a lot of internal compensation for analog circuits to meet the ...
ΕΡΓΑΣΙΑ 1η
... that the input voltage offset caused by the op amp input current is cancelled. Select R2 = 105 kΩand R1 = 33.2 kΩbecause they are standard 1% values, and then b = 10.3. The value of the parallel combination of R1, R2 (R1||R2 = 25.22 kΩ) almost matches the value of the parallel combination of RF, R ...
... that the input voltage offset caused by the op amp input current is cancelled. Select R2 = 105 kΩand R1 = 33.2 kΩbecause they are standard 1% values, and then b = 10.3. The value of the parallel combination of R1, R2 (R1||R2 = 25.22 kΩ) almost matches the value of the parallel combination of RF, R ...
AD706
... in five performance grades. The AD706J is rated over the commercial temperature range of 0°C to +70°C. The AD706A is rated for the extended industrial temperature range of –40°C to +85°C. The AD706 is offered in two varieties of an 8-lead package: plastic mini-DIP and surface-mount (SOIC). ...
... in five performance grades. The AD706J is rated over the commercial temperature range of 0°C to +70°C. The AD706A is rated for the extended industrial temperature range of –40°C to +85°C. The AD706 is offered in two varieties of an 8-lead package: plastic mini-DIP and surface-mount (SOIC). ...
MAX1185 Dual 10-Bit, 20Msps, 3V, Low-Power ADC with General Description
... General Description The MAX1185 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, nine-stage ADCs. The MAX1185 is optimized for low-power, high dynamic performance applications in imaging, instrumentation, ...
... General Description The MAX1185 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, nine-stage ADCs. The MAX1185 is optimized for low-power, high dynamic performance applications in imaging, instrumentation, ...
MAX1184 Dual 10-Bit, 20Msps, 3V, Low-Power ADC with General Description
... The MAX1184 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, 9-stage ADCs. The MAX1184 is optimized for low-power, highdynamic performance applications in imaging, instrumentation, and digital communicatio ...
... The MAX1184 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband trackand-hold (T/H) inputs, driving two pipelined, 9-stage ADCs. The MAX1184 is optimized for low-power, highdynamic performance applications in imaging, instrumentation, and digital communicatio ...
Analog-to-digital converter
An analog-to-digital converter (ADC, A/D, or A to D) is a device that converts a continuous physical quantity (usually voltage) to a digital number that represents the quantity's amplitude.The conversion involves quantization of the input, so it necessarily introduces a small amount of error. Furthermore, instead of continuously performing the conversion, an ADC does the conversion periodically, sampling the input. The result is a sequence of digital values that have been converted from a continuous-time and continuous-amplitude analog signal to a discrete-time and discrete-amplitude digital signal.An ADC is defined by its bandwidth (the range of frequencies it can measure) and its signal to noise ratio (how accurately it can measure a signal relative to the noise it introduces). The actual bandwidth of an ADC is characterized primarily by its sampling rate, and to a lesser extent by how it handles errors such as aliasing. The dynamic range of an ADC is influenced by many factors, including the resolution (the number of output levels it can quantize a signal to), linearity and accuracy (how well the quantization levels match the true analog signal) and jitter (small timing errors that introduce additional noise). The dynamic range of an ADC is often summarized in terms of its effective number of bits (ENOB), the number of bits of each measure it returns that are on average not noise. An ideal ADC has an ENOB equal to its resolution. ADCs are chosen to match the bandwidth and required signal to noise ratio of the signal to be quantized. If an ADC operates at a sampling rate greater than twice the bandwidth of the signal, then perfect reconstruction is possible given an ideal ADC and neglecting quantization error. The presence of quantization error limits the dynamic range of even an ideal ADC, however, if the dynamic range of the ADC exceeds that of the input signal, its effects may be neglected resulting in an essentially perfect digital representation of the input signal.An ADC may also provide an isolated measurement such as an electronic device that converts an input analog voltage or current to a digital number proportional to the magnitude of the voltage or current. However, some non-electronic or only partially electronic devices, such as rotary encoders, can also be considered ADCs. The digital output may use different coding schemes. Typically the digital output will be a two's complement binary number that is proportional to the input, but there are other possibilities. An encoder, for example, might output a Gray code.The inverse operation is performed by a digital-to-analog converter (DAC).