PDF HV9803 Data sheet ( Hoja de datos )

Número de pieza	HV9803
Descripción	LED Driver IC
Fabricantes	Supertex
Logotipo
Hay una vista previa y un enlace de descarga de HV9803 (archivo pdf) en la parte inferior de esta página. Total 7 Páginas
No Preview Available ! Supertex inc. HV9803 LED Driver IC with Average-Mode Constant Current Control Features ►► Fast average current control ►► Correction for propagation delay and offset voltage ►► Fixed off-time switching mode ►► Linear dimming input ►► PWM dimming input ►► Output short circuit protection with programmable skip mode ►► Input under-voltage shutdown Applications ►► Backlighting of LCD Panels ►► General lighting General Description The HV9803 is an open loop average-mode current control LED driver IC operating in a constant off-time mode. The IC features ±2% current accuracy, tight line and load regulation of the LED current without any need for loop compensation or high-side current sensing. Its auto-zero circuit cancels the effect of both the input offset voltage and the propagation delay in the current sense comparator. The HV9803 can be powered from a 7.0~13.2V supply. The IC features fast PWM dimming response. The linear dimming input LD can accept a reference voltage up to 2.5V. The IC is equipped with a current limit comparator for hiccup-mode output short circuit protection. It also features a programmable input under-voltage shutdown. Typical Application Circuit +VIN 7.0~13.2V CDD CIN R1 DIM REF VDD PWMD GATE HV9803 LD CS CSKIP R2 UVLO RT GND RT D1 L1 Q1 RCS Doc.# DSFP-HV9803 NR012313 Supertex inc. www.supertex.com 1 page HV9803 OFF Timer In the HV9803, the timing resistor connected to RT determines the off-time of the gate driver, and it must be wired to GND. The equation governing the off-time of the GATE output is given by: TOFF = RT • 40pF The RT input is protected from short circuit. Over-current condition at RT inhibits the IC. Current Sense Comparator and Timer Circuits The function of the HV9803’s current sense comparator is similar to that of a peak current controller. However, the GATE pulse is not terminated immediately as the LD threshold is met. The GATE turn off in the nth cycle is delayed by a time T2,n determined by a timer circuit as follows: T2,n = 1 2 • (T1,n + T1,n-1) where T1,n and T1,n-1 are the times to the LD threshold in any two consequent switching cycles. This iterative control law is needed for damping sub-harmonic oscillation. Short Circuit Protection The HV9803 is equipped with a protection comparator having a CS threshold VLIM. When this second threshold is triggered, the GATE output shuts off for the duration of a restart delay, determined by the RC constant at UVLO. The capacitor CSKIP is discharged below 200mV. A restart delay due to charging CSKIP to the UVLO start threshold is calculated as: TSKIP = k • R1 • CSKIP • ln k • VIN - 0.30V k • VIN - 1.17V where k = R2/(R1+R2). Under-Voltage Shutdown Under-voltage comparator input is provided to disable the IC, when the UVLO input is below a threshold. Hysteresis is provided to avoid oscillation. Failure Modes and Effects Analysis (FMEA) The HV9803 is designed to withstand short circuit between its adjacent pins without damage. The following table describes the effect of such incidental short circuit conditions. Note, that the above control law is only valid up to a maximum switching duty cycle Dmax= 0.8. Exceeding Dmax will cause reduction in the LED current. Propagation delay in the current sense comparator is one of the most significant contributors to the LED current error. It must be noted that the control scheme described above does not improve this deficiency of the peak-current control scheme by itself. Moreover, it samples the propagation delay during T1 and replicates it during T2, essentially doubling the error introduced by this delay. In order to eliminate this error, the reference voltage is corrected by an auto-zero circuit. In essence, the HV9803 samples its CS signal when the current sense comparator triggers, detects the difference between the sampled CS level and the reference input of the current sense comparator. The resulting difference is subtracted from the reference level to generate a new reference in the next switching cycle. GATE Output The GATE output of the HV9803 is used to drive an external MOSFET. It is recommended that the gate charge QG of the external MOSFET be less than 25nC for switching frequencies ≤100kHz and less than 15nC for switching frequencies >100kHz. The resulting LED current is calculated from the equation: ILED = 0.49 • VLD - 6mV RCS Short Circuit Mode CS to VDD Effect The IC triggers the short circuit protection and operates in the auto- restart mode continuously. VDD to GND Short circuit across the 12V should cause the external bias supply over- current protection. Should cause the external bias supply GND to GATE over-current protection. The power MOSFET Q1 is off. RT to PWMD Case 1 – PWMD = Lo: The RT pin sources its maximum current. GATE = 0V, and Q1 is off. Case 2 – PWMD=Hi: The RT pin is pulled up, shutting off the timer. GATE is off. PWMD to UVLO This will overdrive the under-voltage threshold. However, since VIN UV condition is harmless to the IC, there is no effect. UVLO to LD LD overdrives the UVLO. If LD is lower than the UVLO threshold, the IC shuts off. No effect otherwise. Doc.# DSFP-HV9803 NR012313 Supertex inc. 5 www.supertex.com 5 Page

Páginas	Total 7 Páginas
PDF Descargar	[ Datasheet HV9803.PDF ]

Hoja de datos destacado

Número de pieza	Descripción	Fabricantes
HV9801A	Switch Dimmable LED Driver	Supertex
HV9803	LED Driver IC	Supertex
HV9803B	LED Driver IC	Supertex
HV9803BLG-G	LED Driver IC	Supertex

Número de pieza	Descripción	Fabricantes
SLA6805M	High Voltage 3 phase Motor Driver IC.	Sanken
SDC1742	12- and 14-Bit Hybrid Synchro / Resolver-to-Digital Converters.	Analog Devices

DataSheet.es es una pagina web que funciona como un repositorio de manuales o hoja de datos de muchos de los productos más populares,
permitiéndote verlos en linea o descargarlos en PDF.

DataSheet.es | 2020 | Privacy Policy | Contacto | Buscar