MAX2163 ISDB-T 1-Segment Tuner General Description Features
... The MAX2163 includes LNAs, RF variable gain amplifiers, I and Q downconverting mixers, a baseband variable gain amplifier, and a low-IF filter. The MAX2163’s variable gain amplifiers provide in excess of 100dB of control range. The MAX2163 also includes fully monolithic VCOs as well as a complete fr ...
... The MAX2163 includes LNAs, RF variable gain amplifiers, I and Q downconverting mixers, a baseband variable gain amplifier, and a low-IF filter. The MAX2163’s variable gain amplifiers provide in excess of 100dB of control range. The MAX2163 also includes fully monolithic VCOs as well as a complete fr ...
BA15532F
... (Note 1) To use at temperature above TA=25°C reduce 6.2mW/°C. (Note 2) Mounted on a FR4 glass epoxy PCB 70mm×70mm×1.6mm (copper foil area less than 3%). (Note 3) The voltage difference between inverting input and non-inverting input is the differential input voltage. Then input terminal voltage is s ...
... (Note 1) To use at temperature above TA=25°C reduce 6.2mW/°C. (Note 2) Mounted on a FR4 glass epoxy PCB 70mm×70mm×1.6mm (copper foil area less than 3%). (Note 3) The voltage difference between inverting input and non-inverting input is the differential input voltage. Then input terminal voltage is s ...
LM3489/LM3489Q Hysteretic PFET Buck Controller with Enable Pin
... Figure 25. Propagation Delay The operating frequency and output ripple voltage can also be significantly influenced by the speed up capacitor (Cff). Cff is connected in parallel with the high side feedback resistor, R1. The location of this capacitor is similar to where a phase lead capacitor would ...
... Figure 25. Propagation Delay The operating frequency and output ripple voltage can also be significantly influenced by the speed up capacitor (Cff). Cff is connected in parallel with the high side feedback resistor, R1. The location of this capacitor is similar to where a phase lead capacitor would ...
BD35390FJ
... Ensure that no pins are at a voltage below that of the ground pin at any time, even during transient condition. 4. Ground Wiring Pattern When using both small-signal and large-current ground traces, the two ground traces should be routed separately but connected to a single ground at the reference p ...
... Ensure that no pins are at a voltage below that of the ground pin at any time, even during transient condition. 4. Ground Wiring Pattern When using both small-signal and large-current ground traces, the two ground traces should be routed separately but connected to a single ground at the reference p ...
PowerWorld Transmission Line Parameter Calculator
... the form. There, the user can modify any of those characteristics. After modification of any value, the user has to save the changes by clicking on the button Save before changing tabs, otherwise the changes will be lost. By clicking on New, a message prompting for a name for a new tower configurati ...
... the form. There, the user can modify any of those characteristics. After modification of any value, the user has to save the changes by clicking on the button Save before changing tabs, otherwise the changes will be lost. By clicking on New, a message prompting for a name for a new tower configurati ...
08905311A DL85K - booklet
... With a Multimeter, measure the DC Voltage of the supply while it is connected to the Connecting Block. Put the Negative lead of the meter on the terminal marked GND and the Positive Lead on the terminal marked 12VDC (or V). You should get a reading between 11.5VDC and 13.0VDC. If not, remove the sup ...
... With a Multimeter, measure the DC Voltage of the supply while it is connected to the Connecting Block. Put the Negative lead of the meter on the terminal marked GND and the Positive Lead on the terminal marked 12VDC (or V). You should get a reading between 11.5VDC and 13.0VDC. If not, remove the sup ...
Negative Feedback - Learn About Electronics
... Externally generated interference (non random noise) includes mains (line) born sources such as spikes of interference caused by arcing contacts when heavy currents are switched. Thyristor and Triac control of mains power can also generate mains born interference as well as interference transmitted ...
... Externally generated interference (non random noise) includes mains (line) born sources such as spikes of interference caused by arcing contacts when heavy currents are switched. Thyristor and Triac control of mains power can also generate mains born interference as well as interference transmitted ...
MAX3669 +3.3V, 622Mbps SDH/SONET Laser Driver with Current Monitors and APC General Description
... photocurrent. The APC loop adjusts the laser bias current so the monitor current is matched to a reference current set by RAPCSET. The time constant of the APC loop is determined by an external capacitor (CAPC). To eliminate the pattern-dependent jitter associated with the APC loop-time constant and ...
... photocurrent. The APC loop adjusts the laser bias current so the monitor current is matched to a reference current set by RAPCSET. The time constant of the APC loop is determined by an external capacitor (CAPC). To eliminate the pattern-dependent jitter associated with the APC loop-time constant and ...
MAX16815/MAX16828 High-Voltage, 100mA/200mA Adjustable Linear High-Brightness LED Drivers with PWM Dimming General Description
... Operating Temperature Range .........................-40°C to +125°C Junction Temperature ......................................................+150°C Junction-to-Case Thermal Resistance (θJC) (Note 1) 6-Pin, 3mm x 3mm TDFN ...............................................9°C/W 8-Pin SO .............. ...
... Operating Temperature Range .........................-40°C to +125°C Junction Temperature ......................................................+150°C Junction-to-Case Thermal Resistance (θJC) (Note 1) 6-Pin, 3mm x 3mm TDFN ...............................................9°C/W 8-Pin SO .............. ...
Chapter 2 Technical Terms and Characteristics
... 2.2 Switching characteristics As the IGBT is generally used for switching, it is important to fully understand the turn-on and turn-off switching characteristics in order to determine “switching loss” (power dissipation loss at switching). It is also important to remember that these characteristics ...
... 2.2 Switching characteristics As the IGBT is generally used for switching, it is important to fully understand the turn-on and turn-off switching characteristics in order to determine “switching loss” (power dissipation loss at switching). It is also important to remember that these characteristics ...
Introduction to Comparators
... push-pull and open collector (or open drain). Push-pull stage output levels are typically VCC and 0 V (voltage drop from power supply pins can be neglected). In the case of open collector configuration, an external pull-up resistor is used. Such a configuration allows an external voltage to be appli ...
... push-pull and open collector (or open drain). Push-pull stage output levels are typically VCC and 0 V (voltage drop from power supply pins can be neglected). In the case of open collector configuration, an external pull-up resistor is used. Such a configuration allows an external voltage to be appli ...
DPA-Switch - akinoid.com
... Designing a DC-DC converter with DPA-Switch involves several engineering tradeoffs that weigh efficiency against cost and complexity. The circuit configuration in Figure 1 achieves efficiencies greater than 85% over the range of input voltage at medium loads. In typical applications without synchronous ...
... Designing a DC-DC converter with DPA-Switch involves several engineering tradeoffs that weigh efficiency against cost and complexity. The circuit configuration in Figure 1 achieves efficiencies greater than 85% over the range of input voltage at medium loads. In typical applications without synchronous ...
Physics 4B Lab Experiments
... you are in doubt of how to properly use it, contact your lab instructor for help. It is also imperative that all equipment be returned to the lab carts in the order in which it was found. If any equipment is found be defective, please “tag” it with the tags found near the stockroom door and return i ...
... you are in doubt of how to properly use it, contact your lab instructor for help. It is also imperative that all equipment be returned to the lab carts in the order in which it was found. If any equipment is found be defective, please “tag” it with the tags found near the stockroom door and return i ...
Step-up, step-down, and isolation transformers
... • Transformer T1 primary winding fails open: No current through any component, no voltage across any secondary-side component. • Transformer T1 primary winding fails shorted: Large current through fuse (which will cause it to blow), little current through secondary winding or load, little voltage ac ...
... • Transformer T1 primary winding fails open: No current through any component, no voltage across any secondary-side component. • Transformer T1 primary winding fails shorted: Large current through fuse (which will cause it to blow), little current through secondary winding or load, little voltage ac ...
HMC536MS8G 数据资料DataSheet下载
... The HMC536MS8G & HMC536MS8GE are DC to 6 GHz GaAs MMIC T/R switches in 8 lead MSOP8G surface mount packages with an exposed ground paddle. The switch is ideal for cellular/PCS/3G basestation applications featuring low 0.5 dB insertion loss and +55 dBm input IP3. Power handling is excellent up throug ...
... The HMC536MS8G & HMC536MS8GE are DC to 6 GHz GaAs MMIC T/R switches in 8 lead MSOP8G surface mount packages with an exposed ground paddle. The switch is ideal for cellular/PCS/3G basestation applications featuring low 0.5 dB insertion loss and +55 dBm input IP3. Power handling is excellent up throug ...