DS2003/DS9667/DS2004 High Current/Voltage Darlington Drivers
... voltage, high current NPN Darlington transistor pairs. All units feature common emitter, open collector outputs. To maximize their effectiveness, these units contain suppression diodes for inductive loads and appropriate emitter base resistors for leakage. The DS2003/DS9667 has a series base resisto ...
... voltage, high current NPN Darlington transistor pairs. All units feature common emitter, open collector outputs. To maximize their effectiveness, these units contain suppression diodes for inductive loads and appropriate emitter base resistors for leakage. The DS2003/DS9667 has a series base resisto ...
3B47-J-02 - Analog Devices
... measurement and control applications. Some typical uses are in microcomputer-based data acquisition systems, programmable controllers, analog recorders, dedicated control systems, and any other applications where monitoring of temperature, pressure, flow and analog signals are required. Since each i ...
... measurement and control applications. Some typical uses are in microcomputer-based data acquisition systems, programmable controllers, analog recorders, dedicated control systems, and any other applications where monitoring of temperature, pressure, flow and analog signals are required. Since each i ...
Low-Noise, Regulated, Negative Charge-Pump Power Supplies for GaAsFET Bias _______________General Description ____________________________Features
... Dual-Mode Feedback Input. When FB is grounded, the output is preset to -4.1V. To select other output voltages, connect FB to an external resistor divider. See Figure 2b. Control Voltage Input. To set VOUT, connect a resistor divider between OUT and a positive control voltage between 0V and 10V. See ...
... Dual-Mode Feedback Input. When FB is grounded, the output is preset to -4.1V. To select other output voltages, connect FB to an external resistor divider. See Figure 2b. Control Voltage Input. To set VOUT, connect a resistor divider between OUT and a positive control voltage between 0V and 10V. See ...
RF Power Detector MAX2209 General Description Features
... Note 1: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a 4-layer board. For detailed information on package thermal considerations, refer to www.maxim-ic.com/thermal-tutorial. Note 2: For detailed information on soldering, refer to Appli ...
... Note 1: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a 4-layer board. For detailed information on package thermal considerations, refer to www.maxim-ic.com/thermal-tutorial. Note 2: For detailed information on soldering, refer to Appli ...
Not Recommended for New Designs
... Noise or undesired parasitic AC feedback cause most high-speed comparators to oscillate in the linear region (i.e., when the voltage on one input is at or near the voltage on the other input). The MAX907/MAX908/ MAX909 eliminate this problem by incorporating internal hysteresis. When the two compara ...
... Noise or undesired parasitic AC feedback cause most high-speed comparators to oscillate in the linear region (i.e., when the voltage on one input is at or near the voltage on the other input). The MAX907/MAX908/ MAX909 eliminate this problem by incorporating internal hysteresis. When the two compara ...
Lab 4 Ohms and Kirchoffs Laws
... 1. Setup two 100 ohm resistors in series. 2. Connect the power supply. Typically, the positive end is connected with a red wire to the left side of the circuit board. Please note that this is simply a convention that makes it easier for others (such as your lab instructor) to verify your setup. 3. T ...
... 1. Setup two 100 ohm resistors in series. 2. Connect the power supply. Typically, the positive end is connected with a red wire to the left side of the circuit board. Please note that this is simply a convention that makes it easier for others (such as your lab instructor) to verify your setup. 3. T ...
Chapter 11 Homework - Digilent Learn site
... 11.1 For the circuit below, the input voltage Vin(t) = 3cos(2t-20) – 2cos(3t+30) + cos(4t). Determine: a. The steady-state response of the voltage v(t). b. The steady-state response of the current iR(t). (Hint: take advantage of your results from part a) 1Ω ...
... 11.1 For the circuit below, the input voltage Vin(t) = 3cos(2t-20) – 2cos(3t+30) + cos(4t). Determine: a. The steady-state response of the voltage v(t). b. The steady-state response of the current iR(t). (Hint: take advantage of your results from part a) 1Ω ...
Lab 3
... Use Rf = 10 KΩ. Use the resistors provided in your lab kit. (You may use multiple resistor combinations.) Provide a circuit diagram (schematic) showing your design. Explain how you computed the circuit values. Show mathematically that your circuit values result in the desired equation. Bring your ci ...
... Use Rf = 10 KΩ. Use the resistors provided in your lab kit. (You may use multiple resistor combinations.) Provide a circuit diagram (schematic) showing your design. Explain how you computed the circuit values. Show mathematically that your circuit values result in the desired equation. Bring your ci ...
Lab6
... ground. The capacitor is allowed to discharge through the single resistor RB. The discharge voltage at the lower limit is ...
... ground. The capacitor is allowed to discharge through the single resistor RB. The discharge voltage at the lower limit is ...
analog - West Virginia University
... “Analog chips enable computers to interact with the physical world – to see, listen, touch. . .the next ten years will see a shift in emphasis to analog technologies. . . In the coming years, look for analog – not digital – chips to attract the new talent and ...
... “Analog chips enable computers to interact with the physical world – to see, listen, touch. . .the next ten years will see a shift in emphasis to analog technologies. . . In the coming years, look for analog – not digital – chips to attract the new talent and ...
Schmitt trigger
In electronics a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input signal to a digital output signal. The circuit is named a ""trigger"" because the output retains its value until the input changes sufficiently to trigger a change. In the non-inverting configuration, when the input is higher than a chosen threshold, the output is high. When the input is below a different (lower) chosen threshold the output is low, and when the input is between the two levels the output retains its value. This dual threshold action is called hysteresis and implies that the Schmitt trigger possesses memory and can act as a bistable multivibrator (latch or flip-flop). There is a close relation between the two kinds of circuits: a Schmitt trigger can be converted into a latch and a latch can be converted into a Schmitt trigger.Schmitt trigger devices are typically used in signal conditioning applications to remove noise from signals used in digital circuits, particularly mechanical contact bounce. They are also used in closed loop negative feedback configurations to implement relaxation oscillators, used in function generators and switching power supplies.