MAX5100 +2.7V to +5.5V, Low-Power, Quad, Parallel General Description
... Note 1: Reduced digital code range (code 00 hex to code F0 hex) due to swing limitations when the output amplifier is loaded. Note 2: Gain error is: [100 (VF0,meas - ZCE - VF0,ideal) / VREF]. Where VF0,meas is the DAC output voltage with input code F0 hex, and VF0,ideal is the ideal DAC output volta ...
... Note 1: Reduced digital code range (code 00 hex to code F0 hex) due to swing limitations when the output amplifier is loaded. Note 2: Gain error is: [100 (VF0,meas - ZCE - VF0,ideal) / VREF]. Where VF0,meas is the DAC output voltage with input code F0 hex, and VF0,ideal is the ideal DAC output volta ...
MAX6613 Low-Voltage Analog Temperature Sensor in an SC70 Package General Description
... MAX6613 operates over a 1.8V to 5.5V supply voltage range, with a typical current consumption of only 7.5µA. It is particularly well suited for portable applications where minimizing battery cost and maximizing useful battery life are crucial. The MAX6613 provides an analog voltage output proportion ...
... MAX6613 operates over a 1.8V to 5.5V supply voltage range, with a typical current consumption of only 7.5µA. It is particularly well suited for portable applications where minimizing battery cost and maximizing useful battery life are crucial. The MAX6613 provides an analog voltage output proportion ...
No Slide Title
... Is = saturation current at a given temperature scale current proportional to the cross-sectional area of the diode order of 10-15 A for low-power small-signal diode very strong function of temperature (doubles for every 5 oC rise) VT = kT/q = thermal voltage k = Boltzmann’s constant =1.38 x 10-23 jo ...
... Is = saturation current at a given temperature scale current proportional to the cross-sectional area of the diode order of 10-15 A for low-power small-signal diode very strong function of temperature (doubles for every 5 oC rise) VT = kT/q = thermal voltage k = Boltzmann’s constant =1.38 x 10-23 jo ...
Phys241ManualUnit3
... Write a "mini-report" for this section of the lab manual. Describe what you did succinctly, and then what you found accurately. Then explain what the result means and how it relates to some of the concepts in the previous section. You must write using sentences & paragraphs; bulleted lists are unacc ...
... Write a "mini-report" for this section of the lab manual. Describe what you did succinctly, and then what you found accurately. Then explain what the result means and how it relates to some of the concepts in the previous section. You must write using sentences & paragraphs; bulleted lists are unacc ...
BD00IA5WEFJ
... It is recommended that a capacitor (over 1uF) is placed near pins between the input pin and GND as well as the output pin and GND. A capacitor, between input pin and GND, is valid when the power supply impedance is high or trace is long. Also, as for the capacitor between the output pin and GND, the ...
... It is recommended that a capacitor (over 1uF) is placed near pins between the input pin and GND as well as the output pin and GND. A capacitor, between input pin and GND, is valid when the power supply impedance is high or trace is long. Also, as for the capacitor between the output pin and GND, the ...
MAX17021/MAX17082/MAX17482 Dual-Phase, Quick-PWM Controllers for IMVP-6+/IMVP-6.5 CPU Core Power Supplies General Description
... The MAX17021/MAX17082/MAX17482 are 2/1-phaseinterleaved Quick-PWM™ step-down VID power-supply controllers for notebook CPUs. True out-of-phase operation reduces input ripple current requirements and output- voltage ripple, while easing component selection and layout difficulties. The Quick-PWM contr ...
... The MAX17021/MAX17082/MAX17482 are 2/1-phaseinterleaved Quick-PWM™ step-down VID power-supply controllers for notebook CPUs. True out-of-phase operation reduces input ripple current requirements and output- voltage ripple, while easing component selection and layout difficulties. The Quick-PWM contr ...
master specification - OPS Schneider Electric
... 2. The PMAC instrument can be direct panel mounted in a 92mm x 92mm (3.6 in x 3.6 in) panel cutout, using sliding clamps tightened by thumbscrews. 3. The PMAC instrument supports direct display of all parameters on the front panel or remote display in user programmable groups, using plain language l ...
... 2. The PMAC instrument can be direct panel mounted in a 92mm x 92mm (3.6 in x 3.6 in) panel cutout, using sliding clamps tightened by thumbscrews. 3. The PMAC instrument supports direct display of all parameters on the front panel or remote display in user programmable groups, using plain language l ...
MPC941 rev 10 Final Data Sheet.fm
... MPC941 provides enough copies of low skew clocks for most high performance synchronous systems. The differential LVPECL inputs of the MPC941 allow the device to interface directly with an LVPECL fanout buffer like the MC100EP111 to build very wide clock fanout trees or to couple to a high frequency ...
... MPC941 provides enough copies of low skew clocks for most high performance synchronous systems. The differential LVPECL inputs of the MPC941 allow the device to interface directly with an LVPECL fanout buffer like the MC100EP111 to build very wide clock fanout trees or to couple to a high frequency ...
OPA336 OPA2336 OPA4336 SINGLE-SUPPLY,
... OPA336 series op amps can operate from a +2.1V to +5.5V single supply with excellent performance. Most behavior remains unchanged throughout the full operating voltage range. Parameters which vary significantly with operating voltage are shown in the typical characteristics. OPA336 series op amps ar ...
... OPA336 series op amps can operate from a +2.1V to +5.5V single supply with excellent performance. Most behavior remains unchanged throughout the full operating voltage range. Parameters which vary significantly with operating voltage are shown in the typical characteristics. OPA336 series op amps ar ...
A Power Converter for Photovoltaic Applications
... vibrate more and therefore have a larger virtual cross-section area. The electron, then, does not contribute to the driving current, but increases the vibration energy (temperature) of the lattice. The ...
... vibrate more and therefore have a larger virtual cross-section area. The electron, then, does not contribute to the driving current, but increases the vibration energy (temperature) of the lattice. The ...
FAN3111 — Single 1A High-Speed, Low-Side Gate Driver
... 1. Estimates derived from thermal simulation; actual values depend on the application. 2. Theta_JL (ΘJL): Thermal resistance between the semiconductor junction and the bottom surface of all the leads (including any thermal pad) that are typically soldered to a PCB. 3. Theta_JT (ΘJT): Thermal resista ...
... 1. Estimates derived from thermal simulation; actual values depend on the application. 2. Theta_JL (ΘJL): Thermal resistance between the semiconductor junction and the bottom surface of all the leads (including any thermal pad) that are typically soldered to a PCB. 3. Theta_JT (ΘJT): Thermal resista ...
P10511: Miniaturization of Xerography
... ES10 – Coronode Current: The user’s input for the coronode current matches with the actual current output of the supply. – Input a current value (0 to 2mA) for the coronode current supply – Channel the analog current output of the current supply to DAQ and measure the actual current value – Compare ...
... ES10 – Coronode Current: The user’s input for the coronode current matches with the actual current output of the supply. – Input a current value (0 to 2mA) for the coronode current supply – Channel the analog current output of the current supply to DAQ and measure the actual current value – Compare ...
QS20.481 - PULS Power Supply
... At heavy overloads (when output voltage falls below 40V), the power supply delivers continuous output current for 2s. After this, the output is switched off for approx. 17s before a new start attempt is automatically performed. This cycle is repeated as long as the overload exists. If the overload h ...
... At heavy overloads (when output voltage falls below 40V), the power supply delivers continuous output current for 2s. After this, the output is switched off for approx. 17s before a new start attempt is automatically performed. This cycle is repeated as long as the overload exists. If the overload h ...
ZNBG3118
... capacitors in circuit. Capacitors C2, C4, C6, C7 and C9 ensure that residual power supply and substrate generator noise is not allowed to affect external circuits which may be sensitive to interference. They also serve to suppress any potential RF feed through between stages via the ZNBG3118. These ...
... capacitors in circuit. Capacitors C2, C4, C6, C7 and C9 ensure that residual power supply and substrate generator noise is not allowed to affect external circuits which may be sensitive to interference. They also serve to suppress any potential RF feed through between stages via the ZNBG3118. These ...
CHAPTER 4 BIPOLAR JUNCTION TRANSISTORS (BJTs)
... In saturation region, it behaves as a closed switch with a small resistance RCEsat The saturation IV curve can be approximated by a straight line intersecting the vCE axis at VCEoff The saturation voltage VCEsat VCEoff+ICsatRCEsat VCEsat is normally treated as a constant of 0.2 V for simplici ...
... In saturation region, it behaves as a closed switch with a small resistance RCEsat The saturation IV curve can be approximated by a straight line intersecting the vCE axis at VCEoff The saturation voltage VCEsat VCEoff+ICsatRCEsat VCEsat is normally treated as a constant of 0.2 V for simplici ...
LM2900, LM3900 QUADRUPLE NORTON OPERATIONAL AMPLIFIERS D
... Norton (or current-differencing) amplifiers can be used in most standard general-purpose operational amplifier applications. Performance as a dc amplifier in a single-power-supply mode is not as precise as a standard integrated-circuit operational amplifier operating from dual supplies. Operation of ...
... Norton (or current-differencing) amplifiers can be used in most standard general-purpose operational amplifier applications. Performance as a dc amplifier in a single-power-supply mode is not as precise as a standard integrated-circuit operational amplifier operating from dual supplies. Operation of ...
Voltage regulator
A voltage regulator is designed to automatically maintain a constant voltage level. A voltage regulator may be a simple ""feed-forward"" design or may include negative feedback control loops. It may use an electromechanical mechanism, or electronic components. Depending on the design, it may be used to regulate one or more AC or DC voltages.Electronic voltage regulators are found in devices such as computer power supplies where they stabilize the DC voltages used by the processor and other elements. In automobile alternators and central power station generator plants, voltage regulators control the output of the plant. In an electric power distribution system, voltage regulators may be installed at a substation or along distribution lines so that all customers receive steady voltage independent of how much power is drawn from the line.