TPA0252 数据资料 dataSheet 下载
... The integrated depop circuitry virtually eliminates transients that cause noise in the speakers. Amplifier gain is controlled by two terminals, UP and DOWN. There are 31 discrete steps covering the range of 20 dB (maximum volume setting) to –40 dB (minimum volume setting) in 2 dB steps. By pressing ...
... The integrated depop circuitry virtually eliminates transients that cause noise in the speakers. Amplifier gain is controlled by two terminals, UP and DOWN. There are 31 discrete steps covering the range of 20 dB (maximum volume setting) to –40 dB (minimum volume setting) in 2 dB steps. By pressing ...
T D K 5 1 1 6 F
... Application Hints on the crystal oscillator The crystal oscillator achieves a turn on time less than 1 msec when the specified crystal is used. To achieve this, a NIC oscillator type is implemented in the TDK5116F. The input impedance of this oscillator is a negative resistance in series to an induc ...
... Application Hints on the crystal oscillator The crystal oscillator achieves a turn on time less than 1 msec when the specified crystal is used. To achieve this, a NIC oscillator type is implemented in the TDK5116F. The input impedance of this oscillator is a negative resistance in series to an induc ...
AD538.pdf
... as illustrated in Figure 10, can result in large phase shifts. If a condition of high incremental gain exists along that path (e.g., VO = VY × VZ / VX = 10 V × 10 mV/10 mV = 10 V so that ∆VO /∆VX = 1000), then small amounts of capacitive feedback from VO to the current inputs IZ or IX can result in ...
... as illustrated in Figure 10, can result in large phase shifts. If a condition of high incremental gain exists along that path (e.g., VO = VY × VZ / VX = 10 V × 10 mV/10 mV = 10 V so that ∆VO /∆VX = 1000), then small amounts of capacitive feedback from VO to the current inputs IZ or IX can result in ...
FMS6646 Six Channel, SD/HD 1080p Video Filter Driver Description
... FMS6646 without an AC coupling capacitor. The worstcase sync tip compression due to the clamp does not exceed 7mV. The input level set by the clamp, combined with the internal DC offset, keeps the output within its acceptable range. When the input is ACcoupled, the diode clamp sets the sync tip (or ...
... FMS6646 without an AC coupling capacitor. The worstcase sync tip compression due to the clamp does not exceed 7mV. The input level set by the clamp, combined with the internal DC offset, keeps the output within its acceptable range. When the input is ACcoupled, the diode clamp sets the sync tip (or ...
MAX1747 Triple Charge-Pump TFT LCD DC-DC Converter General Description
... (LCDs) in a low-profile TSSOP package. One highpower and two low-power charge pumps convert the +2.7V to +4.5V input supply voltage into three independent output voltages. The primary high-power charge pump generates an output voltage (VOUT) between 4.5V and 5.5V that is regulated within ±1%. The lo ...
... (LCDs) in a low-profile TSSOP package. One highpower and two low-power charge pumps convert the +2.7V to +4.5V input supply voltage into three independent output voltages. The primary high-power charge pump generates an output voltage (VOUT) between 4.5V and 5.5V that is regulated within ±1%. The lo ...
Fundamentals of Electronic Circuit Design
... ground, but are not connected to a power supply. When current flows into the virtual ground, the voltage at the virtual ground may change relative to the real ground, and the consequences of this situation must be analyzed carefully. 1.5 Electronic Signals Electronic signals are represented either b ...
... ground, but are not connected to a power supply. When current flows into the virtual ground, the voltage at the virtual ground may change relative to the real ground, and the consequences of this situation must be analyzed carefully. 1.5 Electronic Signals Electronic signals are represented either b ...
Experiment 6 Transistors as amplifiers and switches
... semiconductor diode, this voltage will be a very weak function of the base current I B , so we will use the working assumption that it is a fixed, constant value. Consequently, if we know VB , then we also know VE , and vice versa. Given VE , we now know the voltage drop across the resistor RE , so ...
... semiconductor diode, this voltage will be a very weak function of the base current I B , so we will use the working assumption that it is a fixed, constant value. Consequently, if we know VB , then we also know VE , and vice versa. Given VE , we now know the voltage drop across the resistor RE , so ...
T D K 5 1 1 0 F
... Application Hints on the crystal oscillator The crystal oscillator achieves a turn on time less than 1 msec when the specified crystal is used. To achieve this, a NIC oscillator type is implemented in the TDK5110F. The input impedance of this oscillator is a negative resistance in series to an induc ...
... Application Hints on the crystal oscillator The crystal oscillator achieves a turn on time less than 1 msec when the specified crystal is used. To achieve this, a NIC oscillator type is implemented in the TDK5110F. The input impedance of this oscillator is a negative resistance in series to an induc ...
LT6600-10
... 3.3V supply and unity passband gain; the input signal is DC coupled. The common mode input voltage is 0.5V and the differential input voltage is 2VP-P. The common mode output voltage is 1.65V and the differential output voltage is 2VP-P for frequencies below 10MHz. The common mode output voltage is ...
... 3.3V supply and unity passband gain; the input signal is DC coupled. The common mode input voltage is 0.5V and the differential input voltage is 2VP-P. The common mode output voltage is 1.65V and the differential output voltage is 2VP-P for frequencies below 10MHz. The common mode output voltage is ...
