LT5575 - 800MHz to 2.7GHz High Linearity Direct Conversion Quadrature Demodulator.
... into I/Q baseband signals using quadrature LO signals which are internally generated from an external LO source by precision 90° phase-shifters. The demodulated I/Q signals are single-pole low-pass filtered on-chip with a –3dB bandwidth of 490MHz. The differential outputs of the I-channel and Q-chann ...
... into I/Q baseband signals using quadrature LO signals which are internally generated from an external LO source by precision 90° phase-shifters. The demodulated I/Q signals are single-pole low-pass filtered on-chip with a –3dB bandwidth of 490MHz. The differential outputs of the I-channel and Q-chann ...
General Description Features
... CI_, CQ_, VCC_, VREF analog and digital control signals must be applied in this order Input Differential Voltage .............................2.0VP-P differential Continuous Power Dissipation (TA = +70°C) 68-Pin TQFN (derated 40mW/°C above +70°C) ..................4W Operating Temperature Range (Not ...
... CI_, CQ_, VCC_, VREF analog and digital control signals must be applied in this order Input Differential Voltage .............................2.0VP-P differential Continuous Power Dissipation (TA = +70°C) 68-Pin TQFN (derated 40mW/°C above +70°C) ..................4W Operating Temperature Range (Not ...
HMC981LP3E 数据资料DataSheet下载
... power variations applied to the amplifier. The HMC981LP3E also generates a second gate voltage (VG2). VG2 can be adjusted through a resistor divider connected to VDD for amplifiers which require second gate voltage. The HMC981LP3E ensures the protection of the external amplifier during turn on/off b ...
... power variations applied to the amplifier. The HMC981LP3E also generates a second gate voltage (VG2). VG2 can be adjusted through a resistor divider connected to VDD for amplifiers which require second gate voltage. The HMC981LP3E ensures the protection of the external amplifier during turn on/off b ...
AD7886 LC2MOS 12-Bit, 750 kHz/1 MHz, Sampling ADC
... FS/2–1 LSB. The gain error is defined as the deviation between the ideal difference, given above, and the measured difference. For the bipolar case, there are two gain errors; the figure in the specification page represents the worst case. Ideal FS depends on the +5REF input; for the 0 V to 5 V inpu ...
... FS/2–1 LSB. The gain error is defined as the deviation between the ideal difference, given above, and the measured difference. For the bipolar case, there are two gain errors; the figure in the specification page represents the worst case. Ideal FS depends on the +5REF input; for the 0 V to 5 V inpu ...
SN65LVDS3486 数据资料 dataSheet 下载
... Receipt of data from a TIA/EIA-422 line driver can be accomplished using a TIA/EIA-644 line receiver with the addition of an attenuator circuit. This technique gives the user a high-speed and low-power 422 receiver. If the ground noise between the transmitter and receiver is not a concern (less than ...
... Receipt of data from a TIA/EIA-422 line driver can be accomplished using a TIA/EIA-644 line receiver with the addition of an attenuator circuit. This technique gives the user a high-speed and low-power 422 receiver. If the ground noise between the transmitter and receiver is not a concern (less than ...
single-time-constant circuits
... formed of an inductance L and a resistance R has a time constant τ = L/R. The time constant τ of an STC circuit composed of a capacitance C and a resistance R is given by τ = CR. Although STC circuits are quite simple, they play an important role in the design and analysis of linear and digital circ ...
... formed of an inductance L and a resistance R has a time constant τ = L/R. The time constant τ of an STC circuit composed of a capacitance C and a resistance R is given by τ = CR. Although STC circuits are quite simple, they play an important role in the design and analysis of linear and digital circ ...
