LTC6908-1/LTC6908-2 - Resistor Set SOT-23
... MOD (Pin 6/Pin 4): Modulation-Setting Input. This threestate input selects among four modulation rate settings. The MOD pin should be tied to ground for the fOUT/16 modulation rate. Floating the MOD pin selects the fOUT/32 modulation rate. The MOD pin should be tied to V+ for the fOUT/64 modulation ...
... MOD (Pin 6/Pin 4): Modulation-Setting Input. This threestate input selects among four modulation rate settings. The MOD pin should be tied to ground for the fOUT/16 modulation rate. Floating the MOD pin selects the fOUT/32 modulation rate. The MOD pin should be tied to V+ for the fOUT/64 modulation ...
INCREASE OF STRAIN GAGE OUTPUT VOLTAGE SIGNALS ACCURACY
... of this excitation procedure is the multiplication of AC excitation principle which uses single frequency voltage and is called frequency carrier technique [1]. If more than one frequency carrier is used (two or more) it is possible to achieve a higher amplitude signal while maintaining the same eff ...
... of this excitation procedure is the multiplication of AC excitation principle which uses single frequency voltage and is called frequency carrier technique [1]. If more than one frequency carrier is used (two or more) it is possible to achieve a higher amplitude signal while maintaining the same eff ...
AD9830 数据手册DataSheet 下载
... Operating temperature range is as follows: A Version: –40°C to +85°C. ...
... Operating temperature range is as follows: A Version: –40°C to +85°C. ...
4 pole electrolytic capacitor
... frequency range. The very low transfer impedance value at higher frequencies make the four pole capacitor applicable also in other high frequency and digital signal handling equipments and circuits as preamplifiers, A/D and D/A converters, switched mode power supplies etc. ...
... frequency range. The very low transfer impedance value at higher frequencies make the four pole capacitor applicable also in other high frequency and digital signal handling equipments and circuits as preamplifiers, A/D and D/A converters, switched mode power supplies etc. ...
Lab #5 — Schmitt Trigger and Oscillator Circuit 1 Introduction 2 Pre
... (c) Sketch the transfer characteristics as VIN increases from −VSU P V to +VSU P V . (d) Sketch the transfer characteristics as VIN decreases from +VSU P V to −VSU P V . Make sure all axes on your graphs are properly labeled 2. The circuit shown in Figure 1 can be modified to operate from a single r ...
... (c) Sketch the transfer characteristics as VIN increases from −VSU P V to +VSU P V . (d) Sketch the transfer characteristics as VIN decreases from +VSU P V to −VSU P V . Make sure all axes on your graphs are properly labeled 2. The circuit shown in Figure 1 can be modified to operate from a single r ...
A Low Phase Noise 10GHz Optoelectronic RF Oscillator
... A portion of the optical energy is tapped from the loop and directed to a photodetector (PD), which feeds the RF feedback path. Figure 32.2.2 shows the locking of the optical modes, spaced by 10GHz, which are converted to a 10GHz RF signal at the PD. The signal from the PD is amplified using a CMOS ...
... A portion of the optical energy is tapped from the loop and directed to a photodetector (PD), which feeds the RF feedback path. Figure 32.2.2 shows the locking of the optical modes, spaced by 10GHz, which are converted to a 10GHz RF signal at the PD. The signal from the PD is amplified using a CMOS ...
Exp4-DCMotorFreqResp.. - MSU Engineering
... Part A: Steady-state response to sinusoidal input Procedure: In this experiment you will analyze the response of the DC servo motor to a sinusoidal input. Be sure that the inertia disk is removed for the first part of the lab. 1. Turn ON the oscilloscope and the amplifier. 2. Turn ON the signal gene ...
... Part A: Steady-state response to sinusoidal input Procedure: In this experiment you will analyze the response of the DC servo motor to a sinusoidal input. Be sure that the inertia disk is removed for the first part of the lab. 1. Turn ON the oscilloscope and the amplifier. 2. Turn ON the signal gene ...
MAX2058 700MHz to 1200MHz High-Linearity, SPI-Controlled DVGA with Integrated Loopback Mixer General Description
... ideal for a variety of applications, including RFID handheld and portal readers, as well as single and multicarrier 700MHz to 1200MHz GSM/EDGE, cdma2000 ®, WCDMA, and iDEN ® base stations. The MAX2058 yields a high level of component integration, which includes two 5-bit, 31dB digital attenuators, a ...
... ideal for a variety of applications, including RFID handheld and portal readers, as well as single and multicarrier 700MHz to 1200MHz GSM/EDGE, cdma2000 ®, WCDMA, and iDEN ® base stations. The MAX2058 yields a high level of component integration, which includes two 5-bit, 31dB digital attenuators, a ...
EL2075C
... voltage, only 2 mA of input bias current, and a fully symmetrical differential input. Like all voltage-feedback operational amplifiers, the EL2075 allows the use of reactive or non-linear components in the feedback loop. This combination of speed and versatility makes the EL2075 the ideal choice for ...
... voltage, only 2 mA of input bias current, and a fully symmetrical differential input. Like all voltage-feedback operational amplifiers, the EL2075 allows the use of reactive or non-linear components in the feedback loop. This combination of speed and versatility makes the EL2075 the ideal choice for ...
MAX9993 High-Linearity 1700MHz to 2200MHz Down- Conversion Mixer with LO Buffer/Switch General Description
... noise figure (typ). Integrated baluns and matching circuitry allow 50Ω single-ended interfaces to the RF and LO ports. A single-pole, double-throw (SPDT) LO switch provides 50ns switching time between LO inputs, with typically 40dB LO-to-LO isolation. Furthermore, the integrated LO buffer provides a ...
... noise figure (typ). Integrated baluns and matching circuitry allow 50Ω single-ended interfaces to the RF and LO ports. A single-pole, double-throw (SPDT) LO switch provides 50ns switching time between LO inputs, with typically 40dB LO-to-LO isolation. Furthermore, the integrated LO buffer provides a ...
3B17 数据手册DataSheet 下载
... Output modules accept 0 to +10V (or +10V) single-ended signals and provide an isolated 4-20 mA (or 0-20 mA) process signal. All modules feature a universal pin-out and may be readily hot-swapped under full power and interchanged without disrupting field wiring. The Analog Devices 3B Series Signal Co ...
... Output modules accept 0 to +10V (or +10V) single-ended signals and provide an isolated 4-20 mA (or 0-20 mA) process signal. All modules feature a universal pin-out and may be readily hot-swapped under full power and interchanged without disrupting field wiring. The Analog Devices 3B Series Signal Co ...
Active GaAs FET Mixers Using the ATF-10136, ATF-13736, and ATF-13484 Application Note G005
... pumped mixer this becomes difficult if the RF and LO frequencies are near each other. This would occur for an IF that is in the VHF frequency range, i.e., up to several hundred MHz. For a drain pumped mixer, it is best to present a diplexer circuit at the drain. One port provides the LO match with r ...
... pumped mixer this becomes difficult if the RF and LO frequencies are near each other. This would occur for an IF that is in the VHF frequency range, i.e., up to several hundred MHz. For a drain pumped mixer, it is best to present a diplexer circuit at the drain. One port provides the LO match with r ...
MAX9994 SiGe High-Linearity, 1700MHz to 2200MHz Downconversion Mixer with LO Buffer/Switch General Description
... base-station receiver applications. With a 1400MHz to 2000MHz LO frequency range, this particular mixer is ideal for low-side LO injection receiver architectures. High-side LO injection is supported by the MAX9996*, which is pin-for-pin and functionally compatible with the MAX9994. In addition to of ...
... base-station receiver applications. With a 1400MHz to 2000MHz LO frequency range, this particular mixer is ideal for low-side LO injection receiver architectures. High-side LO injection is supported by the MAX9996*, which is pin-for-pin and functionally compatible with the MAX9994. In addition to of ...
LM565/LM565C Phase Locked Loop
... endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI. Reproduction of significant portions of TI information in TI data bo ...
... endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI. Reproduction of significant portions of TI information in TI data bo ...
UNIT 3 QUIZ SOLUTIONS (100 points) 1. (10 points) Given the AC
... b.) Find the phase angle difference and time difference between the two ac waves. SOLUTION: The phase angle difference between the two waves is because the waves are shifted ¼ of a cycle with respect to each other Since t = = ...
... b.) Find the phase angle difference and time difference between the two ac waves. SOLUTION: The phase angle difference between the two waves is because the waves are shifted ¼ of a cycle with respect to each other Since t = = ...
TWEPP-09_9_10_2009
... In Time mode the digital part consists of a Local Oscillator, Fast counter, Slow counter and Time-overThreshold counter. The Hit signal starts the data taking phase (see Figure 3). It triggers the Local Oscillator (LO) which starts to run at 580 MHz (T=1.7 ns) and activates Fast, Slow and Time-over- ...
... In Time mode the digital part consists of a Local Oscillator, Fast counter, Slow counter and Time-overThreshold counter. The Hit signal starts the data taking phase (see Figure 3). It triggers the Local Oscillator (LO) which starts to run at 580 MHz (T=1.7 ns) and activates Fast, Slow and Time-over- ...
Chapter 4: Passive Analog Signal Processing I. Filters
... power, and do not load the source signal. However, the load of the input device into which the filter sends its output will load the LC filter and can shift the f 3dB point considerably – always remember to include the load resistor in your calculations. iii. LC filters are widely used in RF circuit ...
... power, and do not load the source signal. However, the load of the input device into which the filter sends its output will load the LC filter and can shift the f 3dB point considerably – always remember to include the load resistor in your calculations. iii. LC filters are widely used in RF circuit ...
Technical Information Technical Information
... woofer. A very small air leak anywhere near the woofer can dramatically reduce low frequency output and negatively affect the frequency response of the driver. Additionally, it is very important to securely mount the woofer on a rigid baffle. Any energy that moves or vibrates the baffle is energy th ...
... woofer. A very small air leak anywhere near the woofer can dramatically reduce low frequency output and negatively affect the frequency response of the driver. Additionally, it is very important to securely mount the woofer on a rigid baffle. Any energy that moves or vibrates the baffle is energy th ...
AD9830 - Analog Devices
... Operating temperature range is as follows: A Version: –40°C to +85°C. ...
... Operating temperature range is as follows: A Version: –40°C to +85°C. ...
Exp3-OpAmpFreqRespon.. - MSU Engineering
... Compare these values with their theoretical values. Explain difference in the values, if any. (Attach the frequency response plots). ...
... Compare these values with their theoretical values. Explain difference in the values, if any. (Attach the frequency response plots). ...
AI26214224
... an up- pass filter with high resistance amount in mixer output. Then it has been used an OP_Amp for buffering and correcting dc surface. So this condition leads to the separation of two downpass and up- pass filters and omits loading effect on each other. Now after buffering, again it has used a thi ...
... an up- pass filter with high resistance amount in mixer output. Then it has been used an OP_Amp for buffering and correcting dc surface. So this condition leads to the separation of two downpass and up- pass filters and omits loading effect on each other. Now after buffering, again it has used a thi ...
Operational Amplifiers and Negative Feedback
... bypass capacitors to filter the supply lines. A bypass capacitor between each power supply lead and ground, will provide a miniature current “reservoir” that can quickly supply current when needed. This capacitor is normally in the range 1 µF – 10 µF. Compact capacitors in this range are usually ele ...
... bypass capacitors to filter the supply lines. A bypass capacitor between each power supply lead and ground, will provide a miniature current “reservoir” that can quickly supply current when needed. This capacitor is normally in the range 1 µF – 10 µF. Compact capacitors in this range are usually ele ...
amplitude modulation
... – The first step in generating an SSB signal is to suppress the carrier, leaving the upper and lower sidebands. – This type of signal is called a double-sideband suppressed carrier (DSSC) signal. No power is wasted on the carrier. – A balanced modulator is a circuit used to produce the sum and diffe ...
... – The first step in generating an SSB signal is to suppress the carrier, leaving the upper and lower sidebands. – This type of signal is called a double-sideband suppressed carrier (DSSC) signal. No power is wasted on the carrier. – A balanced modulator is a circuit used to produce the sum and diffe ...
Superheterodyne receiver
In electronics, a superheterodyne receiver (often shortened to superhet) uses frequency mixing to convert a received signal to a fixed intermediate frequency (IF) which can be more conveniently processed than the original radio carrier frequency. It was invented by US engineer Edwin Armstrong in 1918 during World War I. Virtually all modern radio receivers use the superheterodyne principle. At the cost of an extra frequency converter stage, the superheterodyne receiver provides superior selectivity and sensitivity compared with simpler designs.