LTC2424/LTC2428 - 4-/8-Channel 20-Bit
... the SCK pin is used as digital input. The frequency of the clock signal driving SCK during the data output is fESCK and is expressed in kHz. Note 10: The converter is in internal SCK mode of operation such that the SCK pin is used as digital output. In this mode of operation the SCK pin has a total ...
... the SCK pin is used as digital input. The frequency of the clock signal driving SCK during the data output is fESCK and is expressed in kHz. Note 10: The converter is in internal SCK mode of operation such that the SCK pin is used as digital output. In this mode of operation the SCK pin has a total ...
Document
... • The feature that a complex number is actually two separate numbers is particularly handy when sinusoids are involved, – since a sinusoid at a given frequency can be uniquely defined by two variables: • its magnitude and phase angle, • or equivalently, its cosine and sine magnitudes (a and b). ...
... • The feature that a complex number is actually two separate numbers is particularly handy when sinusoids are involved, – since a sinusoid at a given frequency can be uniquely defined by two variables: • its magnitude and phase angle, • or equivalently, its cosine and sine magnitudes (a and b). ...
Sinusoids
... rows in the matrix, the ‘mean’ routine will produce the ensemble average as a row matrix. load verg1; Ts = .005; [nu,N] = size(data_out); t = (1:N)*Ts; plot(t,data_out,'k'); hold on; ...
... rows in the matrix, the ‘mean’ routine will produce the ensemble average as a row matrix. load verg1; Ts = .005; [nu,N] = size(data_out); t = (1:N)*Ts; plot(t,data_out,'k'); hold on; ...
DC Circuits–Series, Parallel, and Combination Circuits
... While the ammeters are not directly measuring the current within the resistors, if the current flowing into one end of a resistor is the same as the current flowing out the other end it would be hard to explain how the current, the number charges per second, could be different within the resistor. O ...
... While the ammeters are not directly measuring the current within the resistors, if the current flowing into one end of a resistor is the same as the current flowing out the other end it would be hard to explain how the current, the number charges per second, could be different within the resistor. O ...
LAMPIRAN A RANGKAIAN
... • High-performance, Low-power AVR® 8-bit Microcontroller • Advanced RISC Architecture ...
... • High-performance, Low-power AVR® 8-bit Microcontroller • Advanced RISC Architecture ...
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... using a 30-V, dielectrically isolated, complementary bipolar process with NPN and PNP transistors possessing fTs of several GHz. This results in an exceptionally high performance amplifier that has a wide bandwidth, high slew rate, fast settling time, and low distortion. A simplified schematic is sh ...
... using a 30-V, dielectrically isolated, complementary bipolar process with NPN and PNP transistors possessing fTs of several GHz. This results in an exceptionally high performance amplifier that has a wide bandwidth, high slew rate, fast settling time, and low distortion. A simplified schematic is sh ...
MAX3736 3.2Gbps, Low-Power, Compact, SFP Laser Driver General Description
... placing a resistor from MODSET to ground. To set the modulation amplitude, see the I MOD vs. R MODSET graph in the Typical Operating Characteristics. A more advanced control scheme employs the use of a laser controller IC to control modulation current to stabilize the extinction ratio. For more info ...
... placing a resistor from MODSET to ground. To set the modulation amplitude, see the I MOD vs. R MODSET graph in the Typical Operating Characteristics. A more advanced control scheme employs the use of a laser controller IC to control modulation current to stabilize the extinction ratio. For more info ...
AD5247 数据手册DataSheet下载
... solution for 128-position adjustment applications. This device performs the same electronic adjustment function as a mechanical potentiometer or a variable resistor. Available in four different end-to-end resistance values (5 kΩ, 10 kΩ, 50 kΩ, and 100 kΩ), these low temperature coefficient devices a ...
... solution for 128-position adjustment applications. This device performs the same electronic adjustment function as a mechanical potentiometer or a variable resistor. Available in four different end-to-end resistance values (5 kΩ, 10 kΩ, 50 kΩ, and 100 kΩ), these low temperature coefficient devices a ...
harmonic treatment in industrial power systems
... CLASS-A: Balanced three-phase equipment and all other equipment except that stated in one of the remaining three classes. CLASS-B: Portable electrical tools, which are hand held during normal operation and used for a short time only (few minutes) CLASS-C: Lighting equipment including dimming device ...
... CLASS-A: Balanced three-phase equipment and all other equipment except that stated in one of the remaining three classes. CLASS-B: Portable electrical tools, which are hand held during normal operation and used for a short time only (few minutes) CLASS-C: Lighting equipment including dimming device ...
Understanding electronic components
... very good contact with the Board thru a two-line USB PSoCprog2 is USB 2.0 connector. The bottom IN-SYSTEM programmer of the card is ground for Cypress PSoC plane for noise microcontroller family. It prevention. [more] can program all of PSoC microcontrollers. [more] ...
... very good contact with the Board thru a two-line USB PSoCprog2 is USB 2.0 connector. The bottom IN-SYSTEM programmer of the card is ground for Cypress PSoC plane for noise microcontroller family. It prevention. [more] can program all of PSoC microcontrollers. [more] ...
Electrical Principles
... capacitance in microfarads. TC= R(ohms) x C(farads) or in terms of more common values --TC= R (megohms) x C(microfarads) For example, 100 volts applied to 1μF capacitor with a series one megohm resistor will charge to 63.2 volts in one second. Remember that TC= R (megohms) x C(microfarads) or TC= 1x ...
... capacitance in microfarads. TC= R(ohms) x C(farads) or in terms of more common values --TC= R (megohms) x C(microfarads) For example, 100 volts applied to 1μF capacitor with a series one megohm resistor will charge to 63.2 volts in one second. Remember that TC= R (megohms) x C(microfarads) or TC= 1x ...
8413S12BI-126 - Integrated Device Technology
... NOTE 2: tSTABLE is the time the differential clock must maintain a minimum ±150mV differential voltage after rising/falling edges before it is allowed to drop back into the Vrb ±100mV range. See Parameter Measurement Information Section. NOTE 3: Measurement taken from single-ended waveform. NOTE 4: ...
... NOTE 2: tSTABLE is the time the differential clock must maintain a minimum ±150mV differential voltage after rising/falling edges before it is allowed to drop back into the Vrb ±100mV range. See Parameter Measurement Information Section. NOTE 3: Measurement taken from single-ended waveform. NOTE 4: ...
TPA3244 - Texas Instruments
... Self-Protection Design (Including Undervoltage, Overtemperature, Clipping, and Short Circuit Protection) With Error Reporting EMI Compliant When Used With Recommended System Design ...
... Self-Protection Design (Including Undervoltage, Overtemperature, Clipping, and Short Circuit Protection) With Error Reporting EMI Compliant When Used With Recommended System Design ...