RTD/resistance input two-wire/three
... 4 to 20mA DC. Under-scale limit adjustable for 2.1 to 3.6mA, nominal. Over-scale limit adjustable for 21 to 30mA, nominal. Output Fault Limits (Sensor Fault) 0.4mA below selected under-scale threshold and 1.0mA above over-scale threshold, typical. Output Compliance RLOAD = (VSUPPLY - 8.6V) / 0.020A. ...
... 4 to 20mA DC. Under-scale limit adjustable for 2.1 to 3.6mA, nominal. Over-scale limit adjustable for 21 to 30mA, nominal. Output Fault Limits (Sensor Fault) 0.4mA below selected under-scale threshold and 1.0mA above over-scale threshold, typical. Output Compliance RLOAD = (VSUPPLY - 8.6V) / 0.020A. ...
Notes and Solved Problems on Time Dependent Circuits
... 6. Time dependent current with applied sinusoidal EMF and capacitive load Consider the situation when a capacitor is connected to an AC source with time dependent EMF of the following form: E (t ) = Em sin ω d t where Em is the maximum amplitude of the EMF and ω d is the frequency of the EMF oscilla ...
... 6. Time dependent current with applied sinusoidal EMF and capacitive load Consider the situation when a capacitor is connected to an AC source with time dependent EMF of the following form: E (t ) = Em sin ω d t where Em is the maximum amplitude of the EMF and ω d is the frequency of the EMF oscilla ...
DS4106/DS4212/DS4425 106.25MHz/212.5MHz/425MHz Clock Oscillators General Description
... The clock oscillators are suited for systems with tight tolerances because of the jitter, phase noise, and stability performance. The small package provides a format made for applications where PCB space is critical. These clock oscillators are crystal based and use a fundamental crystal with PLL te ...
... The clock oscillators are suited for systems with tight tolerances because of the jitter, phase noise, and stability performance. The small package provides a format made for applications where PCB space is critical. These clock oscillators are crystal based and use a fundamental crystal with PLL te ...
single-time-constant circuits
... E.2 Classification of STC Circuits STC circuits can be classified into two categories, low-pass (LP) and high-pass (HP) types, with each category displaying distinctly different signal responses. The task of finding whether an STC circuit is of LP or HP type may be accomplished in a number of ways, t ...
... E.2 Classification of STC Circuits STC circuits can be classified into two categories, low-pass (LP) and high-pass (HP) types, with each category displaying distinctly different signal responses. The task of finding whether an STC circuit is of LP or HP type may be accomplished in a number of ways, t ...
FilterPro low-pass design tool
... (battery power, solar power, etc.), the value can be increased to decrease power consumption. Some highspeed op amps require lower feedback resistance, so their seed resistor value should be decreased. Higher resistor values—e.g., 100 kΩ—can be used with FET-input op amps. At temperatures below abou ...
... (battery power, solar power, etc.), the value can be increased to decrease power consumption. Some highspeed op amps require lower feedback resistance, so their seed resistor value should be decreased. Higher resistor values—e.g., 100 kΩ—can be used with FET-input op amps. At temperatures below abou ...
Optical Encoders SERIES 61C
... Rating: 5 Vdc, 10 mA, resistive Contact Resistance: less than 10 ohms (TTL or CMOS Compatible) Voltage Breakdown: 250 Vac between mutually insulated parts. Contact Bounce: Less than 4 milliseconds at make and less than 10 milliseconds at break. Actuation Life: 3,000,000 operations. Actuation Force: ...
... Rating: 5 Vdc, 10 mA, resistive Contact Resistance: less than 10 ohms (TTL or CMOS Compatible) Voltage Breakdown: 250 Vac between mutually insulated parts. Contact Bounce: Less than 4 milliseconds at make and less than 10 milliseconds at break. Actuation Life: 3,000,000 operations. Actuation Force: ...
LT1025 - Micropower Thermocouple Cold
... The LT1025 will operate with a supply voltage from 4V to 36V. Typical supply current is 80µA, resulting in less than 0.1°C internal temperature rise for supply voltages under 10V. A 10mV/°C output is available at low impedance, in addition to the direct thermocouple voltages of 60.9µV/°C (E), 51.7µV ...
... The LT1025 will operate with a supply voltage from 4V to 36V. Typical supply current is 80µA, resulting in less than 0.1°C internal temperature rise for supply voltages under 10V. A 10mV/°C output is available at low impedance, in addition to the direct thermocouple voltages of 60.9µV/°C (E), 51.7µV ...
9-W Stereo Class-D Audio Power Amplifier w/DC Volume Control
... Input for MODE control. A logic high on this pin places the amplifier in the variable output mode and the Class-D outputs are disabled. A logic low on this pin places the amplifier in the Class-D mode and Class-D stereo outputs are enabled. Variable outputs (VAROUTL and VAROUTR) are still enabled in ...
... Input for MODE control. A logic high on this pin places the amplifier in the variable output mode and the Class-D outputs are disabled. A logic low on this pin places the amplifier in the Class-D mode and Class-D stereo outputs are enabled. Variable outputs (VAROUTL and VAROUTR) are still enabled in ...
Hand-Drawn Circuit Diagrams for all circuits that are to
... The balance (or null offset) pins (1 and 5) provide a way to eliminate any offset in the output voltage of the amplifier. The offset voltage (usually denoted by Vos) is an artifact of the integrated circuit. The offset voltage is additive with VO (pin 6 in this case). It can be either positive or ne ...
... The balance (or null offset) pins (1 and 5) provide a way to eliminate any offset in the output voltage of the amplifier. The offset voltage (usually denoted by Vos) is an artifact of the integrated circuit. The offset voltage is additive with VO (pin 6 in this case). It can be either positive or ne ...
PM 6669 High-Precision Frequency Counter Specifications
... reference signal is connected. The use of an external reference signal is indicated on the display. Input frequency: 10 MHz ± 0.1 MHz Coupling: AC Sensitivity: 500 mV rms Input impedance: approx. 300 Ω at 10 MHz Max input voltage: 15 V rms ...
... reference signal is connected. The use of an external reference signal is indicated on the display. Input frequency: 10 MHz ± 0.1 MHz Coupling: AC Sensitivity: 500 mV rms Input impedance: approx. 300 Ω at 10 MHz Max input voltage: 15 V rms ...
Double Sideband (DSB) and Amplitude Modulation
... (on the PCB), clock this module with the (100/96)-kHz TTL signal. Every low-to-high transition occurring on this clock will generate a narrow pulse on the Twin Pulse Generator output. Rotate the width knob fully counter-clockwise, in order to produce the narrowest possible pulse. Place the Twin Pul ...
... (on the PCB), clock this module with the (100/96)-kHz TTL signal. Every low-to-high transition occurring on this clock will generate a narrow pulse on the Twin Pulse Generator output. Rotate the width knob fully counter-clockwise, in order to produce the narrowest possible pulse. Place the Twin Pul ...
Document
... A triangular AC voltage waveform is applied across a purely capacitive load. Using the relationship between voltage and current of a capacitor, determine what the shape of the current waveform will be that flows in the capacitor as a consequence of the applied voltage. Clearly sketch both the curren ...
... A triangular AC voltage waveform is applied across a purely capacitive load. Using the relationship between voltage and current of a capacitor, determine what the shape of the current waveform will be that flows in the capacitor as a consequence of the applied voltage. Clearly sketch both the curren ...
RF5373 1.8V TO 3.6V IEEE802.11b/g/n AND BLUETOOTH DRIVER/AMPLIFIER Features
... 802.11g application where the PA will be pulsed at <99% duty cycle, R1 must be populated with a 56 resistor. For all other applications where pulsing is not needed, R1 can be substituted with a 0 or a trace line. An application schematic for 2.5GHz operation is included that has two additional com ...
... 802.11g application where the PA will be pulsed at <99% duty cycle, R1 must be populated with a 56 resistor. For all other applications where pulsing is not needed, R1 can be substituted with a 0 or a trace line. An application schematic for 2.5GHz operation is included that has two additional com ...
Chapter 21: Alternating Currents
... Example (text problem 21.4): A circuit breaker trips when the rms current exceeds 20.0 A. How many 100.0 W light bulbs can run on this circuit without tripping the breaker? (The voltage is 120 V rms.) Each light bulb draws a current given by: ...
... Example (text problem 21.4): A circuit breaker trips when the rms current exceeds 20.0 A. How many 100.0 W light bulbs can run on this circuit without tripping the breaker? (The voltage is 120 V rms.) Each light bulb draws a current given by: ...
MAX2470/MAX2471 10MHz to 500MHz VCO Buffer Amplifiers with Differential Outputs General Description
... (balanced) load or two separate single-ended (unbalanced) 50Ω loads. The MAX2470 offers a single-ended input and has two selectable frequency ranges of operation: 10MHz to 500MHz and 10MHz to 200MHz. The MAX2471 offers a differential input and operates from 10MHz to 500MHz. The MAX2470/MAX2471 also ...
... (balanced) load or two separate single-ended (unbalanced) 50Ω loads. The MAX2470 offers a single-ended input and has two selectable frequency ranges of operation: 10MHz to 500MHz and 10MHz to 200MHz. The MAX2471 offers a differential input and operates from 10MHz to 500MHz. The MAX2470/MAX2471 also ...
