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HV852
  • HV852
  • HV852

HV852

In Production

HV852 is a high voltage, low noise, inductorless EL (electroluminescent) lamp driver. It is designed to drive EL lamps of up to 1.5in2, with capacitive values up to 5.3nF over an input voltage range of 2.4 to 5.0V. The HV852 converts a low voltage DC input to a high voltage AC output across an EL lamp. It uses a charge pump scheme to boost the input voltage eliminating the need for an external inductor, diode, and high voltage capacitor commonly found in conventional topologies. The charge pump circuit discharges its energy into an EL lamp through a high voltage H-bridge. Once the voltage reaches its regulated limit, it is turned off to conserve power. The EL lamp is then discharged to ground and the H-bridge changes state to allow the charge pump to charge the EL lamp in the opposite di...

Microchip Technology HV852 Product Info

16 April 2026 0

Parameters

Type

Single Inductorless Lamp Driver

Input Voltage Low (V)

2.4

Input Voltage High (V)

5

Nominal Output Voltage (V)

±80

Max Switch Resistance (Ω)

--

Output Regulation

Yes

Max Lamp Size per Device (in2)

1.5

Package

MSOP-8, DFN-10

Operating Iq (µA)

0

Frequency(EL, Typical)

50Hz - 500Hz

Oja (C/W)

--

VOUT

160

Features

    • No external components required when using an external EL clock frequency
    • EL frequency can be set by an external resistor
    • Low Noise
    • DC to AC converter
    • Drives up to 5.3nF (approx. 1.5in2 lamp) load
    • Output voltage regulation
    • Enable function
    • EL Lamp dimming

Description

HV852 is a high voltage, low noise, inductorless EL (electroluminescent) lamp driver. It is designed to drive EL lamps of up to 1.5in2, with capacitive values up to 5.3nF over an input voltage range of 2.4 to 5.0V. The HV852 converts a low voltage DC input to a high voltage AC output across an EL lamp. It uses a charge pump scheme to boost the input voltage eliminating the need for an external inductor, diode, and high voltage capacitor commonly found in conventional topologies. The charge pump circuit discharges its energy into an EL lamp through a high voltage H-bridge. Once the voltage reaches its regulated limit, it is turned off to conserve power. The EL lamp is then discharged to ground and the H-bridge changes state to allow the charge pump to charge the EL lamp in the opposite direction.

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