MAX687/MAX688/MAX689 High-Accuracy, Low-Dropout Linear Regulators _______________General Description
... The MAX687/MAX688/MAX689 low-dropout linear regulators operate with an input-to-output voltage differential limited only by an external PNP transistor. Outputs are fixed at 3.3V (MAX687/MAX688) or 3.0V (MAX689). The only external components required are a PNP pass transistor and output, compensation ...
... The MAX687/MAX688/MAX689 low-dropout linear regulators operate with an input-to-output voltage differential limited only by an external PNP transistor. Outputs are fixed at 3.3V (MAX687/MAX688) or 3.0V (MAX689). The only external components required are a PNP pass transistor and output, compensation ...
MAX1623 3A, Low-Voltage, Step-Down Regulator with Synchronous Rectification and Internal Switches General Description
... designed for 5V-input step-down applications. It features a 55mΩ (typ) PMOS switch and a 60mΩ (typ) NMOS synchronous-rectifier switch. Simple constant-offtime control allows switching frequencies up to 350kHz. Adjust the off-time with an external resistor RTOFF to optimize performance trade-offs amo ...
... designed for 5V-input step-down applications. It features a 55mΩ (typ) PMOS switch and a 60mΩ (typ) NMOS synchronous-rectifier switch. Simple constant-offtime control allows switching frequencies up to 350kHz. Adjust the off-time with an external resistor RTOFF to optimize performance trade-offs amo ...
LT1019 - Precision Reference
... current of 5mA. Find the effect of an input voltage change of 1V and a load current change of 2mA. ∆P (line change) = (∆VIN)(ILOAD) = (1V)(5mA) = 5mW ∆VOUT = (0.5ppm/mW)(5mW) = 2.5ppm ∆P (load change) = (∆ILOAD)(VIN – VOUT) = (2mA)(5V) = 10mW ∆VOUT = (0.5ppm/mW)(10mW) = 5ppm Even though these effect ...
... current of 5mA. Find the effect of an input voltage change of 1V and a load current change of 2mA. ∆P (line change) = (∆VIN)(ILOAD) = (1V)(5mA) = 5mW ∆VOUT = (0.5ppm/mW)(5mW) = 2.5ppm ∆P (load change) = (∆ILOAD)(VIN – VOUT) = (2mA)(5V) = 10mW ∆VOUT = (0.5ppm/mW)(10mW) = 5ppm Even though these effect ...
TVS Diode Array SP723 Lead-Free/Green Datasheet
... The SP723 is an array of SCR/Diode bipolar structures for ESD and over-voltage protection of sensitive input circuits. The SP723 has 2 protection SCR/Diode device structures per input. There are a total of 6 available inputs that can be used to protect up to 6 external signal or bus lines. Overvolta ...
... The SP723 is an array of SCR/Diode bipolar structures for ESD and over-voltage protection of sensitive input circuits. The SP723 has 2 protection SCR/Diode device structures per input. There are a total of 6 available inputs that can be used to protect up to 6 external signal or bus lines. Overvolta ...
FNA40860 Motion SPM 45 Series FNA40860 Motio
... 1) To avoid malfunction, the wiring of each input should be as short as possible (less than 2 - 3 cm). 2) By virtue of integrating an application-specific type of HVIC inside the Motion SPM® 45 product, direct coupling to MCU terminals without any optocoupler or transformer isolation is possible. 3) ...
... 1) To avoid malfunction, the wiring of each input should be as short as possible (less than 2 - 3 cm). 2) By virtue of integrating an application-specific type of HVIC inside the Motion SPM® 45 product, direct coupling to MCU terminals without any optocoupler or transformer isolation is possible. 3) ...
Document
... In most cases, since ro >> RC, reduction in gain is not critical. Furthermore, we can neglect ro in our analysis for simplifying the ...
... In most cases, since ro >> RC, reduction in gain is not critical. Furthermore, we can neglect ro in our analysis for simplifying the ...
What do resistors do?
... A typical LED requires a current of 10 mA and has a voltage of 2 V across it when it is working. The power supply for the circuit is 9 V. What is the voltage across resistor R1? The answer is 9-2=7 V. (The voltages across components in series must add up to the power supply voltage.) You now have t ...
... A typical LED requires a current of 10 mA and has a voltage of 2 V across it when it is working. The power supply for the circuit is 9 V. What is the voltage across resistor R1? The answer is 9-2=7 V. (The voltages across components in series must add up to the power supply voltage.) You now have t ...
PHY222 – Lab 4 Ohm`s Law and Electric Circuits
... Things which do have a fixed resistance always yield the same V/I ratio no matter what voltage you apply to it. Then it is possible to say that V/I = R is the resistance, because the ratio is always the same. 0.3 The graphic symbols for things without and with resistance Wires or things that have li ...
... Things which do have a fixed resistance always yield the same V/I ratio no matter what voltage you apply to it. Then it is possible to say that V/I = R is the resistance, because the ratio is always the same. 0.3 The graphic symbols for things without and with resistance Wires or things that have li ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
... reduced by the inductors. The overall result shows that high power gain at high frequency is achievable with Darlington pair as the stage element of a given DA. Keywords: Distributed amplifier, Darlington pair topology ...
... reduced by the inductors. The overall result shows that high power gain at high frequency is achievable with Darlington pair as the stage element of a given DA. Keywords: Distributed amplifier, Darlington pair topology ...
Lab 8
... Laboratory Exercise 8 – Basic Digital (Logic Gates) This experiment introduces the use of digital logic in electronics. Logic circuits are useful in control and automation applications in instruments and are the building blocks (a step up from transistors) of computers. This topic is reminiscent of ...
... Laboratory Exercise 8 – Basic Digital (Logic Gates) This experiment introduces the use of digital logic in electronics. Logic circuits are useful in control and automation applications in instruments and are the building blocks (a step up from transistors) of computers. This topic is reminiscent of ...
Searching for Patterns in Series and Parallel Circuits
... same and the potential difference across the elements is the sum of the potential differences across each element: I1 = I2 = I3 = Itotal ΔV1 + ΔV2 + ΔV3 = ΔVtotal Elements in Parallel: When circuit elements are connected in parallel, the potential difference is the same across each element and the t ...
... same and the potential difference across the elements is the sum of the potential differences across each element: I1 = I2 = I3 = Itotal ΔV1 + ΔV2 + ΔV3 = ΔVtotal Elements in Parallel: When circuit elements are connected in parallel, the potential difference is the same across each element and the t ...
12V or Adjustable, High-Efficiency, Low I , Step-Up DC-DC Controller Q
... Low IQ, Step-Up DC-DC Controller The control circuitry allows the IC to operate in continuous-conduction mode (CCM) while maintaining high efficiency with heavy loads. When the power switch is turned on, it stays on until either 1) the maximum ontime one-shot turns it off (typically 16µs later), or ...
... Low IQ, Step-Up DC-DC Controller The control circuitry allows the IC to operate in continuous-conduction mode (CCM) while maintaining high efficiency with heavy loads. When the power switch is turned on, it stays on until either 1) the maximum ontime one-shot turns it off (typically 16µs later), or ...
MAX5354/MAX5355 10-Bit Voltage-Output DACs in 8-Pin µMAX __________________General Description
... The output amplifier’s inverting input is available to the user, allowing specific gain configurations, remote sensing, and high output current capability. This makes the MAX5354/MAX5355 ideal for a wide range of applications, including industrial process control. Other features include a software s ...
... The output amplifier’s inverting input is available to the user, allowing specific gain configurations, remote sensing, and high output current capability. This makes the MAX5354/MAX5355 ideal for a wide range of applications, including industrial process control. Other features include a software s ...
Pulsed neural networks consisting of single-flux
... is based on the leaky IFN model. It consists of an input subcircuit, a leaky integrator subcircuit, and an output subcircuit. The input subcircuit is a simple confluence buffer that collects SFQ pulses from other neuron devices and sends the pulses to the leaky integrator subcircuit. The leaky integra ...
... is based on the leaky IFN model. It consists of an input subcircuit, a leaky integrator subcircuit, and an output subcircuit. The input subcircuit is a simple confluence buffer that collects SFQ pulses from other neuron devices and sends the pulses to the leaky integrator subcircuit. The leaky integra ...
