A Design of CMOS Class-AB Differential Log-Companding Amplifier Kobkaew Opasjumruskit , Apisak Worapishet
... differ from what we expected. Nevertheless, the proposed circuit has differential output that can finally eliminate the offset value in the output current. As mentioned in the previous section, the gain of this amplifier is affected by the value of Vgain. The gain of amplifier respect to Vgain is sh ...
... differ from what we expected. Nevertheless, the proposed circuit has differential output that can finally eliminate the offset value in the output current. As mentioned in the previous section, the gain of this amplifier is affected by the value of Vgain. The gain of amplifier respect to Vgain is sh ...
ESD Device testing: The test determines the result
... CDM emulates an integrated circuit which becomes charged and discharges when it touches a grounded metal surface. CDM has a very different nature than HBM and MM. There is no fixed value of a capacitor to discharge; the capacitance to be charged is the capacitance of the integrated circuit to its s ...
... CDM emulates an integrated circuit which becomes charged and discharges when it touches a grounded metal surface. CDM has a very different nature than HBM and MM. There is no fixed value of a capacitor to discharge; the capacitance to be charged is the capacitance of the integrated circuit to its s ...
Sensitive radio-frequency measurements of a quantum dot by tuning
... probe the matching network, a radio-frequency signal is injected at port 1, passed via a directional coupler, and after reflection and amplification received at port 2. The reflected signal is demodulated at room temperature to a dc voltage V D by mixing it with a local oscillator; by adjusting the ...
... probe the matching network, a radio-frequency signal is injected at port 1, passed via a directional coupler, and after reflection and amplification received at port 2. The reflected signal is demodulated at room temperature to a dc voltage V D by mixing it with a local oscillator; by adjusting the ...
Experiment 2 - Rensselaer Polytechnic Institute
... usually need to define the required accuracy to make a statement like this. For example, we can say that a frequency is low as long as the approximate relationship we found between the input and output voltages is within 5% of the full expression. Most of the parts we use in circuits are no more acc ...
... usually need to define the required accuracy to make a statement like this. For example, we can say that a frequency is low as long as the approximate relationship we found between the input and output voltages is within 5% of the full expression. Most of the parts we use in circuits are no more acc ...
INF5490 RF MEMS
... Æ inductance – has a characteristic self resonance frequency – Inductance should be as low as possible so the self resonance frequency is much higher than the frequency used in normal operation ...
... Æ inductance – has a characteristic self resonance frequency – Inductance should be as low as possible so the self resonance frequency is much higher than the frequency used in normal operation ...
LT1424-9 - Isolated Flyback Switching Regulator with 9V Output
... directly from the primary side flyback waveform. A high current, high efficiency switch is included on the die along with all oscillator, control and protection circuitry. The LT1424-9 operates with input supply voltages from 3V to 20V and draws only 7mA quiescent current. It can deliver up to 200mA ...
... directly from the primary side flyback waveform. A high current, high efficiency switch is included on the die along with all oscillator, control and protection circuitry. The LT1424-9 operates with input supply voltages from 3V to 20V and draws only 7mA quiescent current. It can deliver up to 200mA ...
Digitally Adjustable LCD Bias Supply MAX749 _______________General Description ____________________________Features
... - the minimum input voltage, VIN(MIN), - the maximum output voltage, VOUT(MAX), and - the maximum output current, IOUT(MAX). For example, assume that the output voltage must be adjustable to -24V (VOUT(MAX) = -24V) at up to 30mA (IOUT(MAX) = 30mA). The supply voltage ranges from 4.75V to 6V (VIN(MIN ...
... - the minimum input voltage, VIN(MIN), - the maximum output voltage, VOUT(MAX), and - the maximum output current, IOUT(MAX). For example, assume that the output voltage must be adjustable to -24V (VOUT(MAX) = -24V) at up to 30mA (IOUT(MAX) = 30mA). The supply voltage ranges from 4.75V to 6V (VIN(MIN ...
Switched-Capacitor Voltage Converters _______________General Description ____________________________Features
... the frequency must be synchronized, or when higher frequencies are required to reduce audio interference. The MAX1044/ICL7660 can be driven up to 400kHz. The pump and output ripple frequencies are one-half the external clock frequency. Driving the MAX1044/ICL7660 at a higher frequency increases the ...
... the frequency must be synchronized, or when higher frequencies are required to reduce audio interference. The MAX1044/ICL7660 can be driven up to 400kHz. The pump and output ripple frequencies are one-half the external clock frequency. Driving the MAX1044/ICL7660 at a higher frequency increases the ...
Laboratory 3 Strain Gage Sensors
... Until now, you have used the AI Sample Channel VI to sample external voltages. This VI provides a non-buffered input, which means the software reads one value from an input channel and immediately returns the value to you. This process cannot be done very quickly, so for applications that require ve ...
... Until now, you have used the AI Sample Channel VI to sample external voltages. This VI provides a non-buffered input, which means the software reads one value from an input channel and immediately returns the value to you. This process cannot be done very quickly, so for applications that require ve ...
Digital Electronics
... would be very forgiving of imperfect input voltages ... VIN >VM = V+/ 2 --> VOUT = 0 V VIN < VM = V+/ 2 --> VOUT = V+ Note that the ideal inverter returns correct logical outputs (0 V or V+) even when the input voltage is corrupted by noise, voltage spikes, etc. that are nearly half the supply volta ...
... would be very forgiving of imperfect input voltages ... VIN >VM = V+/ 2 --> VOUT = 0 V VIN < VM = V+/ 2 --> VOUT = V+ Note that the ideal inverter returns correct logical outputs (0 V or V+) even when the input voltage is corrupted by noise, voltage spikes, etc. that are nearly half the supply volta ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.