op-amp 4mhz,CA5160E.pdf
... Refer to the block diagram of the CA5160 CMOS Operational Amplifier. The input terminals may be operated down to 0.5V below the negative supply rail, and the output can be swung very close to either supply rail in many applications. Consequently, the CA5160 circuit is ideal for single supply operati ...
... Refer to the block diagram of the CA5160 CMOS Operational Amplifier. The input terminals may be operated down to 0.5V below the negative supply rail, and the output can be swung very close to either supply rail in many applications. Consequently, the CA5160 circuit is ideal for single supply operati ...
CAT6220 300 mA Adjustable Voltage LDO Regulator
... 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, ...
Complete PDF Edition (2,171 KB)
... capability of information and communication systems, for which market demand is growing. Mobile communication devices require not only a high bit rate but also multi-functionality, better performance and low power consumption. Thus, high frequency power amplifiers for transmitters are required to ha ...
... capability of information and communication systems, for which market demand is growing. Mobile communication devices require not only a high bit rate but also multi-functionality, better performance and low power consumption. Thus, high frequency power amplifiers for transmitters are required to ha ...
Dynaco Stereo 70 Repair Guide
... 2) The Output Stage – There are two output stages, one for each channel. Each output stage consists of : a. the output transformer, b. output tubes (2 per channel), and c. cathode bias resistor (the original value was 15.6 ohms and had the appearance of a white ceramic tubular device connected to p ...
... 2) The Output Stage – There are two output stages, one for each channel. Each output stage consists of : a. the output transformer, b. output tubes (2 per channel), and c. cathode bias resistor (the original value was 15.6 ohms and had the appearance of a white ceramic tubular device connected to p ...
DC to 2.0 GHz Multiplier ADL5391
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
Heater Application Note - Lake Shore Cryotronics, Inc.
... should be able to handle at least this power rating. For this example, Pd = 0.1A^2 * 100 ohms = 1 watt. 3. This 0 to 10 volt signal is then applied as the input control voltage of the Kepco. 4. As the Kepco input voltage ranges from 0 to 10 volts, the output current will vary correspondingly from 0 ...
... should be able to handle at least this power rating. For this example, Pd = 0.1A^2 * 100 ohms = 1 watt. 3. This 0 to 10 volt signal is then applied as the input control voltage of the Kepco. 4. As the Kepco input voltage ranges from 0 to 10 volts, the output current will vary correspondingly from 0 ...
a +5 V Fixed, Adjustable Low-Dropout Linear Voltage Regulator ADP3367*
... SET input. The low quiescent current (17 µA) in conjunction with the standby or shutdown mode (0.2 µA) makes this device especially suitable for battery powered systems. The dropout voltage when supplying 100 µA is only 15 mV allowing operation with minimal headroom thereby prolonging the useful bat ...
... SET input. The low quiescent current (17 µA) in conjunction with the standby or shutdown mode (0.2 µA) makes this device especially suitable for battery powered systems. The dropout voltage when supplying 100 µA is only 15 mV allowing operation with minimal headroom thereby prolonging the useful bat ...
Technote 7 Using Op Amps Successfully
... device because there is no “headroom” to bias the input circuitry properly7. Second, this is an inverting amplifier. However, as the output cannot go below ground, it will only work when Vi is negative. Finally, the amplifier will not work for small input voltages because the output cannot get close ...
... device because there is no “headroom” to bias the input circuitry properly7. Second, this is an inverting amplifier. However, as the output cannot go below ground, it will only work when Vi is negative. Finally, the amplifier will not work for small input voltages because the output cannot get close ...
FAN2512, FAN2513 150 mA CMOS LDO Regulators with Fast Start Enable Features
... of the pass P-Channel MOSFET is approximately 1Ω, resulting in an unusually low dropout voltage under load when compared to older bipolar pass-transistor designs. ...
... of the pass P-Channel MOSFET is approximately 1Ω, resulting in an unusually low dropout voltage under load when compared to older bipolar pass-transistor designs. ...
$doc.title
... amplification, an application of which is illustrated in Figure 1. Other potential applications include test and measurement systems requiring high-input impedance, digital-to-analog converter output buffering, high-speed integration, and active filtering. ...
... amplification, an application of which is illustrated in Figure 1. Other potential applications include test and measurement systems requiring high-input impedance, digital-to-analog converter output buffering, high-speed integration, and active filtering. ...
HMC955LC4B - Hittite Microwave Corporation
... support data transmission rates up to 32 Gbps. The demux uses both rising and falling edges of the half-rate clock to sample the data in sequence 01-02 and latches the data on the rising edge into the differential outputs. The demux also has high-speed clock synchronous invert input that allows for ...
... support data transmission rates up to 32 Gbps. The demux uses both rising and falling edges of the half-rate clock to sample the data in sequence 01-02 and latches the data on the rising edge into the differential outputs. The demux also has high-speed clock synchronous invert input that allows for ...
Document
... d. Using some of the components from the circuits in part c, design a circuit which uses a half wave rectifier to produce a constant DC voltage. (6 points) D1 D1N4148 V1 ...
... d. Using some of the components from the circuits in part c, design a circuit which uses a half wave rectifier to produce a constant DC voltage. (6 points) D1 D1N4148 V1 ...
L6452
... This current is injected either into the resistor of the head A (Ralu. A) or B (Ralu. B), depending of the switch SW3. The resistors are grounded, and the voltage at their << hot >> side (Vx) is re-entered via the pins VxA and VxB. Using separate pins from RxA and RxB permits to be more flexible, an ...
... This current is injected either into the resistor of the head A (Ralu. A) or B (Ralu. B), depending of the switch SW3. The resistors are grounded, and the voltage at their << hot >> side (Vx) is re-entered via the pins VxA and VxB. Using separate pins from RxA and RxB permits to be more flexible, an ...
Zetex - DN78, ZXSC310 with reverse polarity protection
... The schematic diagram shown in Figure 1 is a typical example of the ZXSC310 used in a LED flashlight application. The input voltage can either be one or two alkaline cells. If the battery is put in the flashlight the wrong way, the reverse polarity can damage the ZXSC310 and switching transistor, Q1 ...
... The schematic diagram shown in Figure 1 is a typical example of the ZXSC310 used in a LED flashlight application. The input voltage can either be one or two alkaline cells. If the battery is put in the flashlight the wrong way, the reverse polarity can damage the ZXSC310 and switching transistor, Q1 ...
Institutionen för systemteknik Department of Electrical Engineering in CMOS
... band, and thereby not disturb the transmission. There is a large chance these will be filtered out. The same can be said about the third and fifth terms. The fourth and sixth term usually end up very close to the fundamental tones, so they lie within the designated bandwidth and cannot be filtered o ...
... band, and thereby not disturb the transmission. There is a large chance these will be filtered out. The same can be said about the third and fifth terms. The fourth and sixth term usually end up very close to the fundamental tones, so they lie within the designated bandwidth and cannot be filtered o ...
How does inductive filter work
... Since the ripple (fluctuation) of the EKA is too high for many applications, there is a need for smooth ripple-less DC voltage This can be achieved by use of inductive or capacitive filter located between EKA and load. Without a filter DC current Id would be rippled Current Id Voltage EKA It also i ...
... Since the ripple (fluctuation) of the EKA is too high for many applications, there is a need for smooth ripple-less DC voltage This can be achieved by use of inductive or capacitive filter located between EKA and load. Without a filter DC current Id would be rippled Current Id Voltage EKA It also i ...
Dec 2005 Fast CMOS Op Amp Challenges Bipolar Amps on All Key Specs
... bias and noise current. Crucial advances in these amplifiers’ parameters translate to tighter system specs, lower complexity, and a wider supply voltage operating range than previous CMOS op amps. These extremely low input bias current op amps are optimized for high impedance transducer applications ...
... bias and noise current. Crucial advances in these amplifiers’ parameters translate to tighter system specs, lower complexity, and a wider supply voltage operating range than previous CMOS op amps. These extremely low input bias current op amps are optimized for high impedance transducer applications ...
MAX8739 TFT, LCD, DC-DC Converter with Operational Amplifiers General Description
... the MAX8739 is from 1.8V to 5.5V. The device also includes a logic-controlled, high-voltage switch with adjustable delay. The step-up DC-DC converter provides the regulated supply voltage for the panel source driver ICs. The converter is a high-frequency (600kHz/1.2MHz) currentmode regulator with an ...
... the MAX8739 is from 1.8V to 5.5V. The device also includes a logic-controlled, high-voltage switch with adjustable delay. The step-up DC-DC converter provides the regulated supply voltage for the panel source driver ICs. The converter is a high-frequency (600kHz/1.2MHz) currentmode regulator with an ...
Amplifier
An amplifier, electronic amplifier or (informally) amp is an electronic device that increases the power of a signal.It does this by taking energy from a power supply and controlling the output to match the input signal shape but with a larger amplitude. In this sense, an amplifier modulates the output of the power supply to make the output signal stronger than the input signal. An amplifier is effectively the opposite of an attenuator: while an amplifier provides gain, an attenuator provides loss.An amplifier can either be a separate piece of equipment or an electrical circuit within another device. The ability to amplify is fundamental to modern electronics, and amplifiers are extremely widely used in almost all electronic equipment. The types of amplifiers can be categorized in different ways. One is by the frequency of the electronic signal being amplified; audio amplifiers amplify signals in the audio (sound) range of less than 20 kHz, RF amplifiers amplify frequencies in the radio frequency range between 20 kHz and 300 GHz. Another is which quantity, voltage or current is being amplified; amplifiers can be divided into voltage amplifiers, current amplifiers, transconductance amplifiers, and transresistance amplifiers. A further distinction is whether the output is a linear or nonlinear representation of the input. Amplifiers can also be categorized by their physical placement in the signal chain.The first practical electronic device that amplified was the Audion (triode) vacuum tube, invented in 1906 by Lee De Forest, which led to the first amplifiers. The terms ""amplifier"" and ""amplification"" (from the Latin amplificare, 'to enlarge or expand') were first used for this new capability around 1915 when triodes became widespread. For the next 50 years, vacuum tubes were the only devices that could amplify. All amplifiers used them until the 1960s, when transistors appeared. Most amplifiers today use transistors, though tube amplifiers are still produced.