LT1995 - 30MHz, 1000V/µs Gain Selectable Amplifier
... Note 5: The LT1995C is guaranteed to meet specified performance from 0°C to 70°C. The LT1995C is designed, characterized and expected to meet specified performance from –40°C to 85°C but is not tested or QA sampled at these temperatures. The LT1995I is guaranteed to meet specified performance from – ...
... Note 5: The LT1995C is guaranteed to meet specified performance from 0°C to 70°C. The LT1995C is designed, characterized and expected to meet specified performance from –40°C to 85°C but is not tested or QA sampled at these temperatures. The LT1995I is guaranteed to meet specified performance from – ...
LT1991 - Precision, 100µA Gain Selectable Amplifier
... The LT®1991 combines a precision operational amplifier with eight precision resistors to form a one-chip solution for accurately amplifying voltages. Gains from –13 to 14 with a gain accuracy of 0.04% can be achieved using no external components. The device is particularly well suited for use as a d ...
... The LT®1991 combines a precision operational amplifier with eight precision resistors to form a one-chip solution for accurately amplifying voltages. Gains from –13 to 14 with a gain accuracy of 0.04% can be achieved using no external components. The device is particularly well suited for use as a d ...
TMS320C5514 Fixed-Point Digital Signal Processor (Rev. G)
... The fixed-point DSP is based on the TMS320C55x™ DSP generation CPU processor core. The C55x™ DSP architecture achieves high performance and low power through increased parallelism and total focus on power savings. The CPU supports an internal bus structure that is composed of one program bus, one 32 ...
... The fixed-point DSP is based on the TMS320C55x™ DSP generation CPU processor core. The C55x™ DSP architecture achieves high performance and low power through increased parallelism and total focus on power savings. The CPU supports an internal bus structure that is composed of one program bus, one 32 ...
Repairing Williams/Bally WPC Pinball Games from 1990 to 1999, Part
... Activate an opto switch by passing something in front of it to block the light from its corresponding transmitter. The display will indicate if the switch works. Opto switches that are not activated will be displayed as solid "blocks" in the switch test on the dot matrix display (which is basically ...
... Activate an opto switch by passing something in front of it to block the light from its corresponding transmitter. The display will indicate if the switch works. Opto switches that are not activated will be displayed as solid "blocks" in the switch test on the dot matrix display (which is basically ...
LTM4601HV - 12A 28VIN DC/DC uModule with PLL, Output
... DIFFVOUT (Pin K12): Output of the Remote Sense Amplifier. This pin connects to the VOUT_LCL pin. Leave floating if remote sense amplifier is not used. DRVCC (Pin E12): This pin normally connects to INTVCC for powering the internal MOSFET drivers. This pin can be biased up to 6V from an external supp ...
... DIFFVOUT (Pin K12): Output of the Remote Sense Amplifier. This pin connects to the VOUT_LCL pin. Leave floating if remote sense amplifier is not used. DRVCC (Pin E12): This pin normally connects to INTVCC for powering the internal MOSFET drivers. This pin can be biased up to 6V from an external supp ...
LTC2421/LTC2422 - 1-/2-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 ...
TMDS171 3.4 Gbps TMDS Retimer (Rev. D)
... SCL clock frequency fast I2C mode for local I2C control ...
... SCL clock frequency fast I2C mode for local I2C control ...
RMS6091EF74FAW-1600
... 1. Maximum DC value may not be greater than 1.425V. The DC value is the linear average of VDD/VDDQ(t) over a very long period of time (e.g., 1 sec). 2. If maximum limit is exceeded, input levels shall be governed by DDR3 specifications. 3. Under these supply voltages, the device operates to this DDR ...
... 1. Maximum DC value may not be greater than 1.425V. The DC value is the linear average of VDD/VDDQ(t) over a very long period of time (e.g., 1 sec). 2. If maximum limit is exceeded, input levels shall be governed by DDR3 specifications. 3. Under these supply voltages, the device operates to this DDR ...
Mass Air Flow sensor
... do not know if the MAFs or ECUs are. The ECU can handle voltages between 0 and 5V for sure, but I'm not sure it will not be damaged by voltages above that. Accurate The conversion is quite accurate as you can see in the measurements below. It's best to use 2% resistors. You can use 5% resistors, but ...
... do not know if the MAFs or ECUs are. The ECU can handle voltages between 0 and 5V for sure, but I'm not sure it will not be damaged by voltages above that. Accurate The conversion is quite accurate as you can see in the measurements below. It's best to use 2% resistors. You can use 5% resistors, but ...
Resistors Arrays and Networks
... no warranty, either express or implied, is made as to either its applicability to, or its compatibility with, specific requirements; nor does Vishay Intertechnology, Inc. and its affiliates assume any responsibility for correctness of this information, nor for damages consequent to its use. All such ...
... no warranty, either express or implied, is made as to either its applicability to, or its compatibility with, specific requirements; nor does Vishay Intertechnology, Inc. and its affiliates assume any responsibility for correctness of this information, nor for damages consequent to its use. All such ...
SPC560B4x/5x, SPC560C4x/5x, SPC560B54/6x, SPC560D30/40
... usage of the peripheral and the current drawn by the outputs. It can be estimated by referring to the device datasheet (see Section A.1: Reference documents). The inrush current required by the device during power-on reset or exit from STANDBY is clamped at 300 mA and lasts for few microseconds (max ...
... usage of the peripheral and the current drawn by the outputs. It can be estimated by referring to the device datasheet (see Section A.1: Reference documents). The inrush current required by the device during power-on reset or exit from STANDBY is clamped at 300 mA and lasts for few microseconds (max ...
ADC12D800/500RF 12-Bit, 1.6/1.0 GSPS RF
... ADC12D800RF DES Mode IMD3 ................................................................................................ 9 ...
... ADC12D800RF DES Mode IMD3 ................................................................................................ 9 ...
Audience reaction system
... Fig. 9 is a schematic view, similar to Fig. 8B, illus 40 current will flow as against the provision of only one trating a modified arrangement. resistor 21 in the circuit. Similarly, if three switch boxes lReferring now to Fig. 1, there is shown a relatively are connected into the system in the same ...
... Fig. 9 is a schematic view, similar to Fig. 8B, illus 40 current will flow as against the provision of only one trating a modified arrangement. resistor 21 in the circuit. Similarly, if three switch boxes lReferring now to Fig. 1, there is shown a relatively are connected into the system in the same ...
bq76200 High Voltage Battery Pack Front-End
... implementation, a system-side processor can always communicate with the monitor or micro-controller (MCU) within the battery pack, regardless of whether the FETs are on or off — this is not easily supported in a low-side switching architecture due to the lack of a shared ground reference. One key be ...
... implementation, a system-side processor can always communicate with the monitor or micro-controller (MCU) within the battery pack, regardless of whether the FETs are on or off — this is not easily supported in a low-side switching architecture due to the lack of a shared ground reference. One key be ...
MAX2472/MAX2473 500MHz to 2500MHz VCO Buffer Amplifiers General Description
... simply AC-couple the oscillator directly to the input; the buffer’s high input impedance results in minimal loading on the oscillator. For use with 50Ω VCO modules, determine the approximate input impedance (S11) of ...
... simply AC-couple the oscillator directly to the input; the buffer’s high input impedance results in minimal loading on the oscillator. For use with 50Ω VCO modules, determine the approximate input impedance (S11) of ...
MAX2472/73 - Maxim Integrated
... with a bias control pin to vary output power from -10dBm to -2dBm while maintaining harmonic suppression below -25dBc. The MAX2472/MAX2473’s combination of high reverse isolation and low supply current makes them ideal for applications requiring high performance with low power. They feature high inp ...
... with a bias control pin to vary output power from -10dBm to -2dBm while maintaining harmonic suppression below -25dBc. The MAX2472/MAX2473’s combination of high reverse isolation and low supply current makes them ideal for applications requiring high performance with low power. They feature high inp ...
PCF8532 1. General description Universal LCD driver for low multiplex rates
... communication overheads: With the output bank selector, the displayed RAM banks are exchanged (see Section 7.5.4 on page 25) with alternate RAM banks at the blink frequency. This mode can also be specified by the blink-select command (see Table 11 on page 8). In the 1:3 and 1:4 multiplex modes, wher ...
... communication overheads: With the output bank selector, the displayed RAM banks are exchanged (see Section 7.5.4 on page 25) with alternate RAM banks at the blink frequency. This mode can also be specified by the blink-select command (see Table 11 on page 8). In the 1:3 and 1:4 multiplex modes, wher ...
AK4376A - Asahi Kasei Microdevices
... ground-referenced headphone amplifier. An internal circuit newly developed 32-bit digital filters for better sound quality, achieving low distortion characteristics and wide dynamic range. The sampling frequency supports up to 384 kHz. The AK4376A is available in a 36-pin CSP package, utilizing less ...
... ground-referenced headphone amplifier. An internal circuit newly developed 32-bit digital filters for better sound quality, achieving low distortion characteristics and wide dynamic range. The sampling frequency supports up to 384 kHz. The AK4376A is available in a 36-pin CSP package, utilizing less ...
71M6541DT/71M6541FT/71M6541GT/ Energy Meter ICs 71M6542FT/71M6542GT General Description
... computation engine (CE) support a wide range of metering applications with very few external components. The 71M654xT devices support optional interfaces to the Maxim Integrated 71M6x01 series of isolated sensors offering BOM cost reduction, immunity to magnetic tamper, and enhanced reliability. Oth ...
... computation engine (CE) support a wide range of metering applications with very few external components. The 71M654xT devices support optional interfaces to the Maxim Integrated 71M6x01 series of isolated sensors offering BOM cost reduction, immunity to magnetic tamper, and enhanced reliability. Oth ...
MC56F844xx Advance Information - Data Sheet
... • Up to eight fault inputs can be assigned to control multiple PWM outputs • Programmable filters for fault inputs • Independently programmable PWM output polarity • Individual software control of each PWM output • All outputs can be programmed to change simultaneously via a FORCE_OUT event. • PWMX ...
... • Up to eight fault inputs can be assigned to control multiple PWM outputs • Programmable filters for fault inputs • Independently programmable PWM output polarity • Individual software control of each PWM output • All outputs can be programmed to change simultaneously via a FORCE_OUT event. • PWMX ...
BD4154FV
... With an input of 2.0 volts or higher, this terminal goes HIGH to activate the circuit, and goes LOW to deactivate the circuit (with the standby circuit current of 40 μA), It discharges each output and lowers output voltage when the input falls to 0.8 volts or less. V3_IN, V15_IN, and V3AUX_IN These ...
... With an input of 2.0 volts or higher, this terminal goes HIGH to activate the circuit, and goes LOW to deactivate the circuit (with the standby circuit current of 40 μA), It discharges each output and lowers output voltage when the input falls to 0.8 volts or less. V3_IN, V15_IN, and V3AUX_IN These ...
linked
... Gammon Forum : Electronics : Microprocessors : Switches tutorial } // end if switchState is HIGH ...
... Gammon Forum : Electronics : Microprocessors : Switches tutorial } // end if switchState is HIGH ...
Four Channel LIN Transceiver
... transition is made from standby mode, RxDx is put high-impedant immediately after EN becomes High (before the expiration of tenable filtering time). Transmission on each LINx channel is only possible for particular TxDx pin starting from High to Low level (if TxDx pin is Low when entering Normal mod ...
... transition is made from standby mode, RxDx is put high-impedant immediately after EN becomes High (before the expiration of tenable filtering time). Transmission on each LINx channel is only possible for particular TxDx pin starting from High to Low level (if TxDx pin is Low when entering Normal mod ...
Force Sensitive Resistor (FSR)
... For this example I'm showing it with a 5V supply but note that you can use this with a 3.3v supply just as easily. In this configuration the analog voltage reading ranges from 0V (ground) to about 5V (or about the same as the power supply voltage). The way this works is that as the resistance of th ...
... For this example I'm showing it with a 5V supply but note that you can use this with a 3.3v supply just as easily. In this configuration the analog voltage reading ranges from 0V (ground) to about 5V (or about the same as the power supply voltage). The way this works is that as the resistance of th ...
Charlieplexing
Charlieplexing is a technique for driving a multiplexed display in which relatively few I/O pins on a microcontroller are used to drive an array of LEDs. The method uses the tri-state logic capabilities of microcontrollers in order to gain efficiency over traditional multiplexing. Although it is more efficient in its use of I/O, there are issues that cause it to be more complicated to design and render it impractical for larger displays. These issues include duty cycle, current requirements and the forward voltages of the LEDs.