| No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Supertex |
Dual EL Lamp Driver ► Adjustable output regulation for dimming ► Lamp fade-in/fade-out capability ► Low audible noise ► 180VPP output voltage for higher brightness ► 1.5V enable input logic high ► Single cell lithium ion compatible ► One miniature inductor to power both |
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Supertex |
Low Noise Dual EL Lamp Driver ► Low audible noise ► Independent input control for lamp selection ► 160VPP output voltage ► Split supply capability ► Patented output timing ► One miniature inductor to power both lamps ► Low shutdown current ► Wide input voltage range 2.0V to 5.8V |
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Supertex |
High Voltage EL Lamp Driver ► ►Audible noise reduction ► ►190 VPP output voltage for higher brightness ► ►Single cell lithium ion compatible ► ►150nA shutdown current ► ►Wide input voltage range 1.8V to 5.0V ► ►Separately adjustable lamp and converter frequencies ► ►Output voltage r |
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Supertex Inc |
High Voltage EL Lamp Driver ► ►1.8 to 6.5V operating supply voltage ► ►DC to AC conversion ► ►Separately adjustable lamp and converter frequency ► ►Output voltage regulation ► ►Enable/disable function ► ►Patented output timing for high efficiency ► ►<100nA shutdown current ► ►Split sup |
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Supertex |
Tri-EL Lamp Driver IC Tri-EL lamp driver with common terminal Independent brightness control for all 3 lamps 1.8V to 6.5V Operating Supply Voltage Output voltage regulation Two-pin serial data communication for control Linear brightness control with seven steps at constan |
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Supertex |
Low Noise Dual EL Lamp Driver ► Low audible noise ► Independent input control for lamp selection ► 180Vpp output voltage ► Split supply capability ► Patented output timing ► One miniature inductor to power both lamps ► Low shutdown current ► Wide input voltage range 2.0V to 5.8V |
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Supertex Inc |
High Voltage EL Lamp Driver ► 1.8V to 3.5V operating supply voltage ► DC to AC conversion ► Output voltage regulation ► Adjustable output lamp frequency ► Adjustable converter frequency ► Enable/disable function Applications ► Pagers ► Portable Transceiver ► Cellular phones ► R |
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Supertex Inc |
High Voltage EL Lamp Driver ► ► Processed with HVCMOS® technology ► ► 1.0 to 1.6V operating supply voltage ► ► DC to AC conversion ► ► Output load of typically up to 6.0nF ► ► Adjustable output lamp frequency ► ► Adjustable converter frequency ► ► Enable function Applications ► ► Pager |
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Supertex Inc |
High Voltage EL Lamp Driver IC ► ►Patented audible noise reduction ► ►Patented lamp aging compensation ► ►190 VPP output voltage for higher brightness ► ►Patented output timing for high efficiency ► ►Single cell lithium ion compatible ► ►150nA shutdown current ► ►Wide input voltage range |
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Supertex |
Inductorless Liquid Lens Driver ► ►Drives capacitive loads up to 200pF ► ►Programmable drive amplitude (compatible with 40VRMS to 60VRMS lenses) ► ►On-chip boost converter ► ►No external inductor ► ►I2C interface ► ►Low operating current (≤20mA) ► ►Low standby current (≤1.0µA) ► ►Controlle |
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Supertex |
High Voltage Tri-EL Lamp Driver IC ► High voltage, Tri-EL lamp driver with common terminal ► Independent brightness control for all three lamps ► 210VPP output voltage for higher brightness ► 1.8V to 6.5V operating supply voltage ► Output voltage regulation ► Two-pin serial data commu |
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Supertex Inc |
High Voltage EL Lamp Driver IC General Description ► ► Processed with HVCMOS® technology The Supertex HV823 is a high-voltage driver designed for driving EL ► ► 2.0 to 9.5V operating supply voltage lamps of up to 50nF. EL lamps greater than 50nF can be driven for ► ► DC to AC c |
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Supertex |
Low Noise Dual EL Lamp Driver ► Low audible noise ► Independent input control for lamp selection ► 180VPP output voltage ► Split supply capability ► Patented output timing ► One miniature inductor to power both lamps ► Low shutdown current ► Wide input voltage range 2.0V to 5.8V |
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Supertex |
High Voltage EL Lamp Driver Processed with HVCMOS® technology 1.0V to 1.6V supply voltage DC to AC conversion Permits the use of high-resistance elastomeric lamp connectors Adjustable output lamp frequency to control lamp color, lamp life, and power consumption Adjustable conve |
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Supertex |
Inductorless EL Lamp Driver ► ► 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 5.0nF load (approx. 1.5in2 lamp) ► ► Output voltage regulation ► ► Enable |
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Supertex |
Dual EL Lamp Driver ► Adjustable output regulation for dimming ► Lamp fade-in/fade-out capability ► Low audible noise ► 180VPP output voltage for higher brightness ► 1.5V enable input logic high ► Single cell lithium ion compatible ► One miniature inductor to power both |
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Supertex |
High Voltage Dual EL Lamp Driver Independent input control for lamp selection Split supply capability Patented output timing One miniature inductor to power both lamps Low shutdown current Wide input voltage range 2.0V to 5.8V Output voltage regulation No SCR output Available in sma |
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Supertex |
High Voltage Dual EL Lamp Driver Independent input control for lamp selection Split supply capability Patented output timing One miniature inductor to power both lamps Low shutdown current Wide input voltage range 2.0V to 5.8V Output voltage regulation No SCR output Available in sma |
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Supertex Inc |
Off-Line High Voltage EL Lamp Driver ► ► Processed with HVCMOS® technology ► ► Input voltage up to 200V DC ► ► 400V peak-to-peak output voltage ► ► Output load up to 350nF (100in2 for 3.5nF/in2 lamp) ► ► Adjustable output lamp frequency ► ► Adjustable on/off pulsing frequency Applications ► ► |
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Supertex Inc |
High Voltage EL Lamp Driver ► ► Processed with HVCMOS® technology ► ► 2.0 to 9.5V operating supply voltage ► ► DC to AC conversion ► ► 200V peak-to-peak typical output voltage ► ► Large output load capability typically 50nF ► ► Permits the use of high-resistance elastomeric lamp co |
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Desde 2024. D4U Semiconductor.
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