Tone Decoder
... circuit response. If C 3 is too small, the output at pin 8 might pulsate during switching because of transients. ...
... circuit response. If C 3 is too small, the output at pin 8 might pulsate during switching because of transients. ...
TS555
... No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services, ...
... No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services, ...
ALTA Software Guide
... Need to hit ‘enter’ or click on the up or down arrows before it registers a value entered with the keyboard. •DAC(nsec): Delay in nanoseconds before each LED fires once a trigger occurs. •DAC(mV): Since of the pulse, in mV, sent to the LEDs. Determines how much light is produced. ...
... Need to hit ‘enter’ or click on the up or down arrows before it registers a value entered with the keyboard. •DAC(nsec): Delay in nanoseconds before each LED fires once a trigger occurs. •DAC(mV): Since of the pulse, in mV, sent to the LEDs. Determines how much light is produced. ...
MAX9210/MAX9214/MAX9220/MAX9222 Programmable DC-Balance 21-Bit Deserializers General Description
... the voltage rating of the capacitor. The typical LVDS driver output is 350mV centered on an offset voltage of 1.25V, making single-ended output voltages of 1.425V and 1.075V. An LVDS receiver accepts signals from 0 to 2.4V, allowing approximately ±1V common-mode difference between the driver and rec ...
... the voltage rating of the capacitor. The typical LVDS driver output is 350mV centered on an offset voltage of 1.25V, making single-ended output voltages of 1.425V and 1.075V. An LVDS receiver accepts signals from 0 to 2.4V, allowing approximately ±1V common-mode difference between the driver and rec ...
EE595_Team2_P2_Fall07
... mosfets and 2 n-channel mosfets • Modified design replaces p-channel mosfets with power relays and shunt diodes to reduce power loss and generate less heat • Design required to accept input at 5V logic or battery level logic for PWM input signal ...
... mosfets and 2 n-channel mosfets • Modified design replaces p-channel mosfets with power relays and shunt diodes to reduce power loss and generate less heat • Design required to accept input at 5V logic or battery level logic for PWM input signal ...
OPA541 High Power Monolithic OPERATIONAL AMPLIFIER APPLICATIONS
... supplies or a single power supply, as long as the total power supply voltage does not exceed 80V. The power supplies should be bypassed with low series impedance capacitors such as ceramic or tantalum. These should be located as near as practical to the amplifier’s power supply pins. Good power ampl ...
... supplies or a single power supply, as long as the total power supply voltage does not exceed 80V. The power supplies should be bypassed with low series impedance capacitors such as ceramic or tantalum. These should be located as near as practical to the amplifier’s power supply pins. Good power ampl ...
Active-Clamped, Spread-Spectrum, Current-Mode PWM Controllers MAX5974A/MAX5974B/MAX5974C/MAX5974D EVALUATION KIT AVAILABLE
... The MAX5974A/MAX5974B feature unique circuitry to achieve output regulation without using an optocoupler, while the MAX5974C/MAX5974D utilize the traditional optocoupler feedback method. An internal error amplifier with a 1% reference is very useful in nonisolated design, eliminating the need for an ...
... The MAX5974A/MAX5974B feature unique circuitry to achieve output regulation without using an optocoupler, while the MAX5974C/MAX5974D utilize the traditional optocoupler feedback method. An internal error amplifier with a 1% reference is very useful in nonisolated design, eliminating the need for an ...
BDTIC www.BDTIC.com/infineon Sense & Control
... Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Inf ...
... Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Inf ...
A New Approach for Transistor-Clamped H
... with feature like output voltage boosting capability along with capacitor voltage balancing .The proposed multilevel inverter uses conventional transistor clamped H-bridge (TCHB) with an bidirectional switch and four auxillary switches producing a boost output voltage . The single unit of new topolo ...
... with feature like output voltage boosting capability along with capacitor voltage balancing .The proposed multilevel inverter uses conventional transistor clamped H-bridge (TCHB) with an bidirectional switch and four auxillary switches producing a boost output voltage . The single unit of new topolo ...
Nodal Analysis
... Figure 6 The superposition principle states that the system response to all sources can be determined by summing the systems response to each source acting alone, with all other sources “zeroed.” This strategy only works for linear systems. Calculate the node voltages V1, V2, V3, by zeroing all but ...
... Figure 6 The superposition principle states that the system response to all sources can be determined by summing the systems response to each source acting alone, with all other sources “zeroed.” This strategy only works for linear systems. Calculate the node voltages V1, V2, V3, by zeroing all but ...
Reduction of Voltage Stresses in Buck-Boost
... The Boost topology is often used for PFC applications because of its superior performance (efficiency, cost). In some cases the buck-boost topology is preferred because of the ability to generate output voltages less than the line peak voltage. This can be an advantage for the downstream converter s ...
... The Boost topology is often used for PFC applications because of its superior performance (efficiency, cost). In some cases the buck-boost topology is preferred because of the ability to generate output voltages less than the line peak voltage. This can be an advantage for the downstream converter s ...
![Electric_currents[1].](http://s1.studyres.com/store/data/012360684_1-64c8520b323976fcd197d28cbb535e82-300x300.png)
Electric_currents[1].
... 7 times over the range. Don’t leave the circuit connected for long when the resistance is low (current high) because this will run the cell down quickly. Plot a graph of V against I. Determine the Emf and r ...
... 7 times over the range. Don’t leave the circuit connected for long when the resistance is low (current high) because this will run the cell down quickly. Plot a graph of V against I. Determine the Emf and r ...
MAX1763 1.5A, Low-Noise, 1MHz, Step-Up DC-DC Converter General Description
... DC-DC converter intended for use in battery-powered wireless applications. This device maintains exceptionally low quiescent supply current (110µA) despite its high 1MHz operating frequency. Small external components and a tiny package make this device an excellent choice for small hand-held applica ...
... DC-DC converter intended for use in battery-powered wireless applications. This device maintains exceptionally low quiescent supply current (110µA) despite its high 1MHz operating frequency. Small external components and a tiny package make this device an excellent choice for small hand-held applica ...
ADA4922-1 数据手册DataSheet 下载
... ADCs that have differential input ranges up to ±20 V. Configured as an easy-to-use, single-ended-to-differential amplifier, the ADA4922-1 requires no external components to drive ADCs. The ADA4922-1 provides essential benefits such as low distortion and high SNR that are required for driving ADCs wi ...
... ADCs that have differential input ranges up to ±20 V. Configured as an easy-to-use, single-ended-to-differential amplifier, the ADA4922-1 requires no external components to drive ADCs. The ADA4922-1 provides essential benefits such as low distortion and high SNR that are required for driving ADCs wi ...
UCC3888 数据资料 dataSheet 下载
... off-line, low-power, low-voltage, regulated bias supply. The unique circuit topology utilized in this device can be visualized as two cascaded flyback converters, each operating in the discontinuous mode, both driven from a single external power switch. The significant benefit of this approach is th ...
... off-line, low-power, low-voltage, regulated bias supply. The unique circuit topology utilized in this device can be visualized as two cascaded flyback converters, each operating in the discontinuous mode, both driven from a single external power switch. The significant benefit of this approach is th ...
Electronics Exercise 2: The 555 Timer and its
... b) Create an accurate clock signal (Example: There is a pulse accumulator pin on the 68HC11 microcontroller that counts pulses. You can apply an Astable 555 timer circuit set at 1 Hz frequency to the pulse accumulator pin and create a seconds counter within the microcontroller. The pulse accumulator ...
... b) Create an accurate clock signal (Example: There is a pulse accumulator pin on the 68HC11 microcontroller that counts pulses. You can apply an Astable 555 timer circuit set at 1 Hz frequency to the pulse accumulator pin and create a seconds counter within the microcontroller. The pulse accumulator ...
Short circuit loop measurements
... • According to this standard, every system must be inspected during assembly, after assembly and before handover to the user. The acceptance inspection must include comparison of the measurements results with the relevant criteria defined, among others in the multi-sheet IEC 60364 standard, so as to ...
... • According to this standard, every system must be inspected during assembly, after assembly and before handover to the user. The acceptance inspection must include comparison of the measurements results with the relevant criteria defined, among others in the multi-sheet IEC 60364 standard, so as to ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.