ADR510 数据手册DataSheet 下载
... minimum value and the load current is at maximum value. RBIAS also needs to be large enough so that IQ does not exceed 10 mA when the supply voltage is at its maximum value and the load current is at its minimum value. ...
... minimum value and the load current is at maximum value. RBIAS also needs to be large enough so that IQ does not exceed 10 mA when the supply voltage is at its maximum value and the load current is at its minimum value. ...
Digital Generation of LFO`s for Modulating Effects
... 100K and up, and the resistors themselves make an effective "current source" into the NPN transistor's base. If the transistor's collector resistance is connected directly to the signal lines, we need to do some housekeeping to keep things nice. A big electrolytic capacitor as shown will keep the in ...
... 100K and up, and the resistors themselves make an effective "current source" into the NPN transistor's base. If the transistor's collector resistance is connected directly to the signal lines, we need to do some housekeeping to keep things nice. A big electrolytic capacitor as shown will keep the in ...
protection
... Built-in BACnet (BTL listed), Siemens APOGEE FLN, Johnson Controls Metasys N2, and Modbus/Memobus communication ...
... Built-in BACnet (BTL listed), Siemens APOGEE FLN, Johnson Controls Metasys N2, and Modbus/Memobus communication ...
Examples of experiments - CMA
... of electricity. With a wide input voltage range of 10 V this sensor can be used to measure voltages in AC and DC circuits. The sensor has differential inputs, which means that measurements can be done directly across circuit elements without the constraints of common grounding. It can be used to me ...
... of electricity. With a wide input voltage range of 10 V this sensor can be used to measure voltages in AC and DC circuits. The sensor has differential inputs, which means that measurements can be done directly across circuit elements without the constraints of common grounding. It can be used to me ...
Clipper Datasheet V3
... - Passive System - no power supply needed - >98% Voltage transfer from Input to Output - No Calibration required ...
... - Passive System - no power supply needed - >98% Voltage transfer from Input to Output - No Calibration required ...
DIFFERENTIAL VOLTAGE SENSOR 0210 -10 .. +10 V - CMA
... of electricity. With a wide input voltage range of 10 V this sensor can be used to measure voltages in AC and DC circuits. The sensor has differential inputs, which means that measurements can be done directly across circuit elements without the constraints of common grounding. It can be used to me ...
... of electricity. With a wide input voltage range of 10 V this sensor can be used to measure voltages in AC and DC circuits. The sensor has differential inputs, which means that measurements can be done directly across circuit elements without the constraints of common grounding. It can be used to me ...
5 V low drop voltage regulator
... Output voltage vs Tj . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Output voltage vs VS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Output voltage vs VEn . . . . . . . . ...
... Output voltage vs Tj . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Output voltage vs VS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Output voltage vs VEn . . . . . . . . ...
File
... pathway does not affect the rest of the pathways in the circuit. Adding a new pathway does not affect resistance in other pathways- in fact, adding extra resistors decreases the total resistance of the circuit. ...
... pathway does not affect the rest of the pathways in the circuit. Adding a new pathway does not affect resistance in other pathways- in fact, adding extra resistors decreases the total resistance of the circuit. ...
Humidity Sensor Performance Characteristics
... The equation’s parameters (Kp, Kn, Vbias, Vtn and Vtp) are temperature dependent. For an example with typical values of Vtn=1.7, Vtp=1.2, VDD=5 V and Vbias=2.6 V (Vt dependent), the maximum source current is about 50 μA. Therefore, for correct operation, the recommended minimum load value is 76 kOhm ...
... The equation’s parameters (Kp, Kn, Vbias, Vtn and Vtp) are temperature dependent. For an example with typical values of Vtn=1.7, Vtp=1.2, VDD=5 V and Vbias=2.6 V (Vt dependent), the maximum source current is about 50 μA. Therefore, for correct operation, the recommended minimum load value is 76 kOhm ...
RESISTIVITY Objective Objective of this lab work is to measure
... Fig. 1. (a) A conductor of cylindrical shape has length L and area of cross-section A. Since crosssection is uniform over the whole length of this conductor, its resistance can be found using formula (2). (b) R can be found experimentally by measuring the voltage V across the conductor and current I ...
... Fig. 1. (a) A conductor of cylindrical shape has length L and area of cross-section A. Since crosssection is uniform over the whole length of this conductor, its resistance can be found using formula (2). (b) R can be found experimentally by measuring the voltage V across the conductor and current I ...
Ohm`s Law - Parts 1 and 2
... A voltmeter must be connected in parallel (across) to the circuit element of interest, as shown in Fig. 3.4(a). Since the voltmeter measures potential difference between two points, it is easy to connect. To measure the potential difference (voltage drop) across a resistor, use two cables to connect t ...
... A voltmeter must be connected in parallel (across) to the circuit element of interest, as shown in Fig. 3.4(a). Since the voltmeter measures potential difference between two points, it is easy to connect. To measure the potential difference (voltage drop) across a resistor, use two cables to connect t ...
Loop Power Sensors Loop Power, 4
... vibration sensor over a distance in the form of a current signal. CTC’s loop power sensors output a 4-20 mA current that is proportional to the overall vibration of the equipment or machinery they are monitoring. This output current has a range of 4-20 mA (4 mA normally representing the sensor’s zer ...
... vibration sensor over a distance in the form of a current signal. CTC’s loop power sensors output a 4-20 mA current that is proportional to the overall vibration of the equipment or machinery they are monitoring. This output current has a range of 4-20 mA (4 mA normally representing the sensor’s zer ...
Corel Ventura - LH0032.CHP
... capacitance CC required. The second compensation scheme works well with both inverting or non-inverting modes. Figure 7 shows the circuit schematic, in which a 270ohm resistor and a 0.01µF capacitor are shunted across the inputs of the device. This lag compensation introduces a zero in the loop modi ...
... capacitance CC required. The second compensation scheme works well with both inverting or non-inverting modes. Figure 7 shows the circuit schematic, in which a 270ohm resistor and a 0.01µF capacitor are shunted across the inputs of the device. This lag compensation introduces a zero in the loop modi ...
Dear Mr Poon, ([email protected]) 1/27/2015
... The 5.1 volt zener diode creates a higher turn-‐on voltage for the Darlington connected transistor pair. Most any bi-‐polar transistor may be used, but the zener voltage will vary from about 3 to 10 ...
... The 5.1 volt zener diode creates a higher turn-‐on voltage for the Darlington connected transistor pair. Most any bi-‐polar transistor may be used, but the zener voltage will vary from about 3 to 10 ...
2N3866
... more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods ...
... more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods ...
Slide 1
... Transfer characteristic of the emitter follower. This linear characteristic is obtained by neglecting the change in vBE1 with iL. The maximum positive output is determined by the saturation of Q1. In the negative direction, the limit of the linear region is determined either by Q1 turning off or by ...
... Transfer characteristic of the emitter follower. This linear characteristic is obtained by neglecting the change in vBE1 with iL. The maximum positive output is determined by the saturation of Q1. In the negative direction, the limit of the linear region is determined either by Q1 turning off or by ...
LNK362-364 rev_E.indd
... of U1. At full load, almost all switching cycles will be enabled, and at very light loads, almost all the switching cycles will be disabled, giving a low effective frequency and providing high light load efficiency and low no-load consumption. Resistor R3 provides 1 mA through VR1 to bias the Zener ...
... of U1. At full load, almost all switching cycles will be enabled, and at very light loads, almost all the switching cycles will be disabled, giving a low effective frequency and providing high light load efficiency and low no-load consumption. Resistor R3 provides 1 mA through VR1 to bias the Zener ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
... to alleviate the problem of voltage sags and swells and its severe impact on non linear loads or sensitive loads. Dynamic Voltage Restorer (DVR) is one of the most reliable and efficient custom power devices used in power distribution network. This paper describes space vector PWM technique used for ...
... to alleviate the problem of voltage sags and swells and its severe impact on non linear loads or sensitive loads. Dynamic Voltage Restorer (DVR) is one of the most reliable and efficient custom power devices used in power distribution network. This paper describes space vector PWM technique used for ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.