HV512FB, HV513, HV513K7-G Selling Leads, Datasheet
MFG:SUPEREX Package Cooled:BGA D/C:08+
HV512FB, HV513, HV513K7-G Datasheet download
Part Number: HV512FB
MFG: SUPEREX
Package Cooled: BGA
D/C: 08+
MFG:SUPEREX Package Cooled:BGA D/C:08+
HV512FB, HV513, HV513K7-G Datasheet download
MFG: SUPEREX
Package Cooled: BGA
D/C: 08+
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PDF/DataSheet Download
Datasheet: HV506
File Size: 475220 KB
Manufacturer: SUTEX [Supertex, Inc]
Download : Click here to Download
PDF/DataSheet Download
Datasheet: HV513
File Size: 121555 KB
Manufacturer: SUTEX [Supertex, Inc]
Download : Click here to Download
PDF/DataSheet Download
Datasheet: HV506
File Size: 475220 KB
Manufacturer: SUTEX [Supertex, Inc]
Download : Click here to Download
The HV513 is a low voltage serial to high voltage parallel converter with 8 high voltage push-pull outputs. This device has been designed to drive small capacitve loads such as piezoelectric transducers. It can also be used in any application requiring multiple high voltage outputs, with medium current source and sink capabilities.
The device consists of an 8-bit shift register, 8 latches, and control logic to perform the polarity select and blanking of the outputs. Data is shifted through the shift register on the low to high transition of the clock. A data output buffer is provided for cascading devices. Operation of the shift register is not affected by the /LE, /BL, /POL, or the /HI-Z control inputs. Transfer of data from the shift register to the latch occurs when the /LE is high. The data in the latch is stored when /LE is low. A high-Z, /HI-Z, pin is provided to set all the outputs in a high-Z state.
All outputs have short circuit protection that detects if the outputs have reached the required output state. If output does not track the required state, then the /SHORT pin will be low. This output will pulse low during the output transistion period under normal operation; see SC Timing Diagram for details.
All outputs will have a break-before-make circuitry to reduce cross-over current during output state changes.
Note: All logic control inputs have internal 20k-ohm pull-up resistors.