AN028: Building an Auto-Ranging DMM with the ICL7103A
... When an under-range or over-range occurs, several things happen. First, the true output of the 74121 goes high, enabling a shift pulse. At the same time the Q output goes low, causing the ICL7103A to hold in auto-zero. Nine hundred clock pulses after the beginning of auto-zero, the coincidence betwe ...
... When an under-range or over-range occurs, several things happen. First, the true output of the 74121 goes high, enabling a shift pulse. At the same time the Q output goes low, causing the ICL7103A to hold in auto-zero. Nine hundred clock pulses after the beginning of auto-zero, the coincidence betwe ...
MAX15036/MAX15037 2.2MHz, 3A Buck or Boost Converters with an Integrated High-Side Switch
... The MAX15036/MAX15037 high-frequency, DC-DC converters with an integrated n-channel power MOSFET provide up to 3A of load current. The MAX15036 includes an internal power MOSFET to enable the design of a nonsynchronous buck or boost topology power supply. The MAX15037 is for the design of a synchron ...
... The MAX15036/MAX15037 high-frequency, DC-DC converters with an integrated n-channel power MOSFET provide up to 3A of load current. The MAX15036 includes an internal power MOSFET to enable the design of a nonsynchronous buck or boost topology power supply. The MAX15037 is for the design of a synchron ...
MAX15059 76V, 300mW Boost Converter and Current Monitor for APD Bias Applications
... Monitor for APD Bias Applications (VIN = VSHDN = VCNTRL= 3.3V. CIN = 1FF, VPGND = VSGND = 0V, VBIAS = 40V. LX = APD = CLAMP = ILIM = unconnected, VMOUT = 0V, TA = -40NC to +85NC for the MAX15059AETE+ and MAX15059BETE+ and TA = -40NC to +125NC for the MAX15059AATE+ and MAX15059BATE+, unless otherwise ...
... Monitor for APD Bias Applications (VIN = VSHDN = VCNTRL= 3.3V. CIN = 1FF, VPGND = VSGND = 0V, VBIAS = 40V. LX = APD = CLAMP = ILIM = unconnected, VMOUT = 0V, TA = -40NC to +85NC for the MAX15059AETE+ and MAX15059BETE+ and TA = -40NC to +125NC for the MAX15059AATE+ and MAX15059BATE+, unless otherwise ...
v X
... voltage source. Location in the circuit and polarity of this source is important. • Any value of the current can go through the voltage source, in any direction. The current can also be zero. The voltage source does not “care about” current. It “cares” only about voltage. ...
... voltage source. Location in the circuit and polarity of this source is important. • Any value of the current can go through the voltage source, in any direction. The current can also be zero. The voltage source does not “care about” current. It “cares” only about voltage. ...
MAX12554 14-Bit, 80Msps, 3.3V ADC General Description Features
... internal quantizer. The analog input stage accepts single-ended or differential signals. The MAX12554 is optimized for high dynamic performance, low power, and small size. Excellent dynamic performance is maintained from baseband to input frequencies of 175MHz and beyond, making the MAX12554 ideal f ...
... internal quantizer. The analog input stage accepts single-ended or differential signals. The MAX12554 is optimized for high dynamic performance, low power, and small size. Excellent dynamic performance is maintained from baseband to input frequencies of 175MHz and beyond, making the MAX12554 ideal f ...
LED driver for single flash
... divider. Output of this divider is compared to the internal voltage reference 1.192 V. When the voltage of the voltage divider output is increased over the reference, the logic will switch off the power circuit. The maximum current, which could flow through the NTC pin is 1mA. Voltage divider must b ...
... divider. Output of this divider is compared to the internal voltage reference 1.192 V. When the voltage of the voltage divider output is increased over the reference, the logic will switch off the power circuit. The maximum current, which could flow through the NTC pin is 1mA. Voltage divider must b ...
LTC6603
... L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. ...
... L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. ...
UM0969
... surfaces. There is a danger of serious personal injury if the kit or components are improperly used or incorrectly installed. The kit is not electrically isolated from the AC/DC input. The demonstration board is directly linked to the mains voltage. No insulation is ensured between accessible parts ...
... surfaces. There is a danger of serious personal injury if the kit or components are improperly used or incorrectly installed. The kit is not electrically isolated from the AC/DC input. The demonstration board is directly linked to the mains voltage. No insulation is ensured between accessible parts ...
MAX12555 14-Bit, 95Msps, 3.3V ADC General Description Features
... for high dynamic performance, low power, and small size. Excellent dynamic performance is maintained from baseband to input frequencies of 175MHz and beyond, making the MAX12555 ideal for intermediatefrequency (IF) sampling applications. Powered from a single 3.3V supply, the MAX12555 consumes only ...
... for high dynamic performance, low power, and small size. Excellent dynamic performance is maintained from baseband to input frequencies of 175MHz and beyond, making the MAX12555 ideal for intermediatefrequency (IF) sampling applications. Powered from a single 3.3V supply, the MAX12555 consumes only ...
Agilent 34401A Multimeter Uncompromising Performance for
... The 4-wire ohms method provides the most accurate way to measure small resistances. Test lead resistances and contact resistances are automatically reduced using this method. Four-wire ohms is often used in automated test applications where long cable lengths, numerous connections, or switches exist ...
... The 4-wire ohms method provides the most accurate way to measure small resistances. Test lead resistances and contact resistances are automatically reduced using this method. Four-wire ohms is often used in automated test applications where long cable lengths, numerous connections, or switches exist ...
Chapter 5: Resistors - Mt. San Antonio College
... Storing and recalling numbers Changing from Degree to Radian in SET UP x-1 button Pi button Sqrt button Negative button Using parenthesis a lot for parallel resistors PEN vs DEC mode ...
... Storing and recalling numbers Changing from Degree to Radian in SET UP x-1 button Pi button Sqrt button Negative button Using parenthesis a lot for parallel resistors PEN vs DEC mode ...
Solution - faculty.ucmerced.edu
... Step 4 - Finally, we break up the 3 Ω equivalent resistor into the 4 and 12 Ω resistors in parallel. Now, the current through these two resistors aren’t equal, but the voltage drop is. So, yet again, we go back to Ohm’s law. I4 = 2.25/4 = 0.56 A, while I12 = 2.25/12 = 0.19 A. Again, the currents add ...
... Step 4 - Finally, we break up the 3 Ω equivalent resistor into the 4 and 12 Ω resistors in parallel. Now, the current through these two resistors aren’t equal, but the voltage drop is. So, yet again, we go back to Ohm’s law. I4 = 2.25/4 = 0.56 A, while I12 = 2.25/12 = 0.19 A. Again, the currents add ...
- Kewtech
... clip. This will only work if there is no RCD in this type of system. 5.3 Measurement of PSC (Prospective Short Circuit Current) Warning: Never connect 2 phases to this instrument This is normally measured at the distribution board between the phase and neutral. Select the 20kA, 2000A or 200A range C ...
... clip. This will only work if there is no RCD in this type of system. 5.3 Measurement of PSC (Prospective Short Circuit Current) Warning: Never connect 2 phases to this instrument This is normally measured at the distribution board between the phase and neutral. Select the 20kA, 2000A or 200A range C ...
TL1963A-15 数据资料 dataSheet 下载
... 1.5 A of output current with a dropout voltage of 340 mV. Operating quiescent current is 1 mA, dropping to less than 1 μA in shutdown. Quiescent current is well controlled; it does not rise in dropout as it does with many other regulators. In addition to fast transient response, the TL1963A-xx regul ...
... 1.5 A of output current with a dropout voltage of 340 mV. Operating quiescent current is 1 mA, dropping to less than 1 μA in shutdown. Quiescent current is well controlled; it does not rise in dropout as it does with many other regulators. In addition to fast transient response, the TL1963A-xx regul ...
ELECTROMAGNETIC TOPOLOGY
... 50 / 60 Hz components has to be properly derated for 400Hz applications – Fuses are not appreciably affected – Thermal-Magnetic & Magnetic circuit breakers are affected ...
... 50 / 60 Hz components has to be properly derated for 400Hz applications – Fuses are not appreciably affected – Thermal-Magnetic & Magnetic circuit breakers are affected ...
Valve RF amplifier
A valve RF amplifier (UK and Aus.) or tube amplifier (U.S.), is a device for electrically amplifying the power of an electrical radio frequency signal.Low to medium power valve amplifiers for frequencies below the microwaves were largely replaced by solid state amplifiers during the 1960s and 1970s, initially for receivers and low power stages of transmitters, transmitter output stages switching to transistors somewhat later. Specially constructed valves are still in use for very high power transmitters, although rarely in new designs.