TLC7528CDWR ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/Fblock diagram14DB0 REFA313RFBA4122ÎOUTA8118InputÎData DACALatch A10 BufferInputsÎ9Î8 1AGND7DB719RFB ..
TLC7528CDWRG4 ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/F 20-SOIC 0 to 70 SLAS062E − JANUARY 1987 − REVIS ..
TLC7528CFN ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/Fmaximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
TLC7528CN ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/Fmaximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
TLC7528CNS ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/F.recommended operating conditionsV = 4.75V to 5.25V V = 14.5V to 15.5VDD DDUNIT UNITMIN NOM MAX MIN ..
TLC7528CNSR ,8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/Fmaximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
TMP47P441AN , CMOS 4-BIT MICROCONTROLLER
TMP47P800F , CMOS 4-BIT MICROCONTROLEER
TMP47P800F , CMOS 4-BIT MICROCONTROLEER
TMP47P800F , CMOS 4-BIT MICROCONTROLEER
TMP47P860F , CMOS 4-BIT MICROCONTROLLER
TMP47P860F , CMOS 4-BIT MICROCONTROLLER
TLC7528-TLC7528CDW-TLC7528CDWR-TLC7528CDWRG4-TLC7528CFN-TLC7528CN-TLC7528CNS-TLC7528CNSR-TLC7528CPWR-TLC7528EDW-TLC7528IDWR-TLC7528IDWRG4-TLC7528IFN-TLC7528IN
8-Bit, 0.1 us Dual MDAC, Parallel Input, Fast Control Signalling for DSP, Easy Micro I/F
Interchangeable With Analog DevicesAD7528 and PMI PM-7528 Fast Control Signaling for Digital Signal
Processor (DSP) Applications Including
Interface With TMS320 Voltage-Mode Operation CMOS Technology
descriptionThe TLC7528C, TLC7528E, and TLC7528I are
dual, 8-bit, digital-to-analog converters (DACs)
designed with separate on-chip data latches and
feature exceptionally close DAC-to-DAC match-
ing. Data are transferred to either of the two DAC
data latches through a common, 8-bit, input port.
Control input DACA/DACB determines which
DAC is to be loaded. The load cycle of these
devices is similar to the write cycle of a
random-access memory, allowing easy interface
to most popular microprocessor buses and output
ports. Segmenting the high-order bits minimizes
glitches during changes in the most significant
bits, where glitch impulse is typically the
strongest.
These devices operate from a 5V to 15V power supply and dissipates less than 15mW (typical). The 2- or
4-quadrant multiplying makes these devices a sound choice for many microprocessor-controlled gain-setting
and signal-control applications. It can be operated in voltage mode, which produces a voltage output rather than
a current output. Refer to the typical application information in this data sheet.
The TLC7528C is characterized for operation from 0°C to +70°C. The TLC7528I is characterized for operation
from −25°C to +85°C. The TLC7528E is characterized for operation from −40°C to +85°C.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.