Microchip Technology, Inc. 32-Channel Vacuum Fluorescent Display Driver HV518

Description
The HV518 is designed for vacuum fluorescent or DC plasma applications, where it can serve as a segment, digit or matrix display driver. Each device has 32 outputs, 32 latches and a 32-bit cascadable shift register. Serial data enters the shift register on the LOW-to-HIGH transition of the clock input. With latch enable (LE) HIGH, parallel data is transferred to the output buffers through a 32-bit latch. When LE is low the data is stored in the latch. When STROBE (STR) is LOW, all outputs are enabled; if STROBE is HIGH, all outputs are LOW. Additional Features 32 output lines 90V output swing Active pull-down Latches on all outputs Up to 6.0MHz @ VDD = 5.0V -40°C to +85°C operation
Datasheet
Description
The HV518 is designed for vacuum fluorescent or DC plasma applications, where it can serve as a segment, digit or matrix display driver. Each device has 32 outputs, 32 latches and a 32-bit cascadable shift register. Serial data enters the shift register on the LOW-to-HIGH transition of the clock input. With latch enable (LE) HIGH, parallel data is transferred to the output buffers through a 32-bit latch. When LE is low the data is stored in the latch. When STROBE (STR) is LOW, all outputs are enabled; if STROBE is HIGH, all outputs are LOW. Additional Features 32 output lines 90V output swing Active pull-down Latches on all outputs Up to 6.0MHz @ VDD = 5.0V -40°C to +85°C operation
Datasheet

Suppliers

Company
Product
Description
Supplier Links
32-Channel Vacuum Fluorescent Display Driver - HV518 - Microchip Technology, Inc.
Chandler, AZ, United States
32-Channel Vacuum Fluorescent Display Driver
HV518
32-Channel Vacuum Fluorescent Display Driver HV518
The HV518 is designed for vacuum fluorescent or DC plasma applications, where it can serve as a segment, digit or matrix display driver. Each device has 32 outputs, 32 latches and a 32-bit cascadable shift register. Serial data enters the shift register on the LOW-to-HIGH transition of the clock input. With latch enable (LE) HIGH, parallel data is transferred to the output buffers through a 32-bit latch. When LE is low the data is stored in the latch. When STROBE (STR) is LOW, all outputs are enabled; if STROBE is HIGH, all outputs are LOW. Additional Features 32 output lines 90V output swing Active pull-down Latches on all outputs Up to 6.0MHz @ VDD = 5.0V -40°C to +85°C operation

The HV518 is designed for vacuum fluorescent or DC plasma applications, where it can serve as a segment, digit or matrix display driver. Each device has 32 outputs, 32 latches and a 32-bit cascadable shift register. Serial data enters the shift register on the LOW-to-HIGH transition of the clock input. With latch enable (LE) HIGH, parallel data is transferred to the output buffers through a 32-bit latch. When LE is low the data is stored in the latch. When STROBE (STR) is LOW, all outputs are enabled; if STROBE is HIGH, all outputs are LOW.

Additional Features

  • 32 output lines
  • 90V output swing
  • Active pull-down
  • Latches on all outputs
  • Up to 6.0MHz @ VDD = 5.0V
  • -40°C to +85°C operation
Supplier's Site Datasheet

Technical Specifications

  Microchip Technology, Inc.
Product Category Gate Drivers
Product Number HV518
Product Name 32-Channel Vacuum Fluorescent Display Driver
Package Type DIP; 44/PLCC 40/PDIP
Unlock Full Specs
to access all available technical data

Similar Products

 - DS26F31MJ - Rochester Electronics
Texas Instruments
Specs
Package Type DIP; CDIP16
Packing Method Tube; Tube; Other
View Details
Clock Buffers, Drivers - SI53354BD12752-AMR - Quarktwin Technology Ltd.
Specs
Output Configuration Inverting
Supply Voltage 1.71 to 3.46 volts
Switching Frequency 250000 kHz
View Details
Gate Driver ICs - 2EDN7533F - Infineon Technologies AG
Infineon Technologies AG
Specs
Driver Type Low-side
Output Current 5 amps
Supply Voltage 4.2 to 20 volts
View Details
 - 26LS29DM/B - Rochester Electronics
Rochester Electronics
Specs
Package Type DIP; CDIP16
Packing Method Tube; Tube; Other
View Details