LT5512 - 1kHz-3GHz High Signal Level Down-Converting Mixer.
... shunt inductors. An impedance transformation is required to match the RF input to 50Ω (or 75Ω). EN (Pin 5): Enable Pin. When the input voltage is higher than 3V, the mixer circuits supplied through Pins 6, 7, 10, and 11 are enabled. When the input voltage is less than 0.3V, all circuits are disabled ...
... shunt inductors. An impedance transformation is required to match the RF input to 50Ω (or 75Ω). EN (Pin 5): Enable Pin. When the input voltage is higher than 3V, the mixer circuits supplied through Pins 6, 7, 10, and 11 are enabled. When the input voltage is less than 0.3V, all circuits are disabled ...
ADC音频放大器系列SSM2302 数据手册DataSheet 下载
... The SSM2302 stereo Class-D audio amplifier features a filterless modulation scheme that greatly reduces the external components count, conserving board space and thus reducing systems cost. The SSM2302 does not require an output filter, but instead relies on the inherent inductance of the speaker co ...
... The SSM2302 stereo Class-D audio amplifier features a filterless modulation scheme that greatly reduces the external components count, conserving board space and thus reducing systems cost. The SSM2302 does not require an output filter, but instead relies on the inherent inductance of the speaker co ...
LMK60E2-150M, LMK60E2-156M
... To ensure that the maximum junction temperature of LMK60XX is below 120°C, it can be calculated that the maximum PCB temperature without airflow should be at 90°C or below when the device is optimized for best performance resulting in maximum on-chip power dissipation of 0.68 W. 9.1.2 Best Practices ...
... To ensure that the maximum junction temperature of LMK60XX is below 120°C, it can be calculated that the maximum PCB temperature without airflow should be at 90°C or below when the device is optimized for best performance resulting in maximum on-chip power dissipation of 0.68 W. 9.1.2 Best Practices ...
NCP1396A, NCP1396B High Performance Resonant Mode Controller featuring High--Voltage Drivers
... feedback loop closes. The soft-- start sequence is activated in the following cases: a) normal startup b) back to operation from an off state: during hiccup faulty mode, brown-- out or temperature shutdown (TSD). In the NCP1396A, the soft-- start is not activated back to operation from the fast faul ...
... feedback loop closes. The soft-- start sequence is activated in the following cases: a) normal startup b) back to operation from an off state: during hiccup faulty mode, brown-- out or temperature shutdown (TSD). In the NCP1396A, the soft-- start is not activated back to operation from the fast faul ...
Lecture 7
... A filter is a circuit that passes certain frequencies and rejects all others. The passband is the range of frequencies allowed through the filter. The critical frequency defines the end (or ends) of the passband and is normally specified at the point where the response drops -3dB (70.7%) from the pa ...
... A filter is a circuit that passes certain frequencies and rejects all others. The passband is the range of frequencies allowed through the filter. The critical frequency defines the end (or ends) of the passband and is normally specified at the point where the response drops -3dB (70.7%) from the pa ...
MAX9508 CVBS/S-Video Filter Amplifier with SmartSleep and Bidirectional Video Support General Description
... to the digital-to-analog converter (DAC) outputs. The reconstruction filter removes high-frequency signals above 6.75MHz. The amplifiers have 6dB of gain, and the outputs can be DC-coupled to a load of 75Ω, which is equivalent to two video loads, or it can be AC-coupled to a load of 150Ω. The SmartS ...
... to the digital-to-analog converter (DAC) outputs. The reconstruction filter removes high-frequency signals above 6.75MHz. The amplifiers have 6dB of gain, and the outputs can be DC-coupled to a load of 75Ω, which is equivalent to two video loads, or it can be AC-coupled to a load of 150Ω. The SmartS ...
![G7 - PRACTICAL CIRCUITS [2 exam question - 2 groups]](http://s1.studyres.com/store/data/005387230_1-76f563a4545dbc8ee3b6675916804d53-300x300.png)
G7 - PRACTICAL CIRCUITS [2 exam question - 2 groups]
... G7B02 Why do digital circuits use the binary number system? A. Binary "ones" and "zeros" are easy to represent with an "on" or "off" state B. The binary number system is most accurate C. Binary numbers are more compatible with analog circuitry D. All of these answers are correct ...
... G7B02 Why do digital circuits use the binary number system? A. Binary "ones" and "zeros" are easy to represent with an "on" or "off" state B. The binary number system is most accurate C. Binary numbers are more compatible with analog circuitry D. All of these answers are correct ...
Optimize Your SAR ADC Design - TI E2E Community
... Continuing on, the ADC values that we are going to use in our calculations are tACQ, CSH, k, and VFSR. As we select the value for CFLT, it is critical that we meet the acquisition time (tACQ) requirements of the converter. This will be specified in the manufacturer’s data sheet. The size of the exte ...
... Continuing on, the ADC values that we are going to use in our calculations are tACQ, CSH, k, and VFSR. As we select the value for CFLT, it is critical that we meet the acquisition time (tACQ) requirements of the converter. This will be specified in the manufacturer’s data sheet. The size of the exte ...
