Subthreshold Resonance Explains the Frequency
... are driven most strongly in the 0- to 5-Hz range, whereas layer II stellate cells are active at frequencies between 5 and 20 Hz (Gloveli et al. 1997; Heinemann et al. 2000). Not surprisingly, stellate cells exhibit a significant subthreshold resonance located in the frequency band of 5–16 Hz. A majo ...
... are driven most strongly in the 0- to 5-Hz range, whereas layer II stellate cells are active at frequencies between 5 and 20 Hz (Gloveli et al. 1997; Heinemann et al. 2000). Not surprisingly, stellate cells exhibit a significant subthreshold resonance located in the frequency band of 5–16 Hz. A majo ...
paper - American Society for Engineering Education
... have improved output voltage range over that of a BJT particularly in applications where the power supply may be 5V or even less. Another advantage of the MOSFET, particularly those constructed in VMOS is its improved temperature stability over the BJT greatly reducing the possibility of thermal ru ...
... have improved output voltage range over that of a BJT particularly in applications where the power supply may be 5V or even less. Another advantage of the MOSFET, particularly those constructed in VMOS is its improved temperature stability over the BJT greatly reducing the possibility of thermal ru ...
NB3N3020DTGEVB Evaluation Board User's Manual EVAL BOARD USER’S MANUAL
... to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, ...
... to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, ...
ground_talk
... • Random start times depended on noise pulses generating enough energy in the line ...
... • Random start times depended on noise pulses generating enough energy in the line ...
G6K-2F-RF-V
... because the heat generated by the coil itself will affect the insulation and can cause a film to develop on the contact surfaces. We recommend using a latching relay (magnetic-holding relay) in this kind of circuit. If a single-side stable model must be used in this kind of circuit, we recommend add ...
... because the heat generated by the coil itself will affect the insulation and can cause a film to develop on the contact surfaces. We recommend using a latching relay (magnetic-holding relay) in this kind of circuit. If a single-side stable model must be used in this kind of circuit, we recommend add ...
ekt314/4 - UniMAP Portal
... characteristics is contrary to the ideal operational amplifier as it does not have infinite input impedance, non-zero output impedance and input current. Other important factor is offset voltage. The µA741 operational amplifier is manufactured by Fairchild Semiconductor (LM741) and its specification ...
... characteristics is contrary to the ideal operational amplifier as it does not have infinite input impedance, non-zero output impedance and input current. Other important factor is offset voltage. The µA741 operational amplifier is manufactured by Fairchild Semiconductor (LM741) and its specification ...
Nominal impedance
Nominal impedance in electrical engineering and audio engineering refers to the approximate designed impedance of an electrical circuit or device. The term is applied in a number of different fields, most often being encountered in respect of:The nominal value of the characteristic impedance of a cable or other form of transmission line.The nominal value of the input, output or image impedance of a port of a network, especially a network intended for use with a transmission line, such as filters, equalisers and amplifiers.The nominal value of the input impedance of a radio frequency antennaThe actual impedance may vary quite considerably from the nominal figure with changes in frequency. In the case of cables and other transmission lines, there is also variation along the length of the cable, if it is not properly terminated. It is usual practice to speak of nominal impedance as if it were a constant resistance, that is, it is invariant with frequency and has a zero reactive component, despite this often being far from the case. Depending on the field of application, nominal impedance is implicitly referring to a specific point on the frequency response of the circuit under consideration. This may be at low-frequency, mid-band or some other point and specific applications are discussed in the sections below.In most applications, there are a number of values of nominal impedance that are recognised as being standard. The nominal impedance of a component or circuit is often assigned one of these standard values, regardless of whether the measured impedance exactly corresponds to it. The item is assigned the nearest standard value.