Datasheet HT16D33A/HT16D33B (Holtek) - 10

FabricanteHoltek
Descripción16×16 Constant Current LED Driver
Páginas / Página86 / 10 — HT16D33A/HT16D33B. 16×16 Constant Current LED Driver. A.C. …
Revisión1.10
Formato / tamaño de archivoPDF / 3.0 Mb
Idioma del documentoInglés

HT16D33A/HT16D33B. 16×16 Constant Current LED Driver. A.C. Characteristics. Symbol. Parameter. Test Conditions. Min. Typ. Max. Unit

HT16D33A/HT16D33B 16×16 Constant Current LED Driver A.C Characteristics Symbol Parameter Test Conditions Min Typ Max Unit

Línea de modelo para esta hoja de datos

Versión de texto del documento

HT16D33A/HT16D33B HT16D33A/HT16D33B 16×16 Constant Current LED Driver 16×16 Constant Current LED Driver
Note: 1. Bit Skew: I Pin dI CA_(n+1) (VDS=1V) – ICA_n (VDS=1V) CA1 (%) = × 100% (n: CA pin number) ICA_(n+1) (VDS=1V) + ICA_n (VDS=1V) / 2 2. Channel Skew: I + dI CA_MAX–ICA_AVG CA2 (% ) = × 100% (n: CA pin number) ICA_AVG I – dI CA_MIN–ICA_AVG CA2 (% ) = × 100% (n: CA pin number) ICA_AVG Where: ICA_AVG: the average ICA for all CA pins on VDS=1V ICA_MAX: the max ICA of all CA pins on VDS=1.0V ICA_MIN: the min ICA of all CA pins on VDS=1.0V I 3. %/dV CA_MAX–ICA_MIN DS (%/V) = × 100% (2.0V–0.7V) × ICA_AVG Where: ICA_AVG: the average ICA for each CA pin between VDS=0.7V and 2.0V ICA_MAX: the max ICA of each CA pin between VDS=0.7V and 2.0V ICA_MIN: the min ICA of each CA pin between VDS=0.7V and 2.0V I 4. %/dV CA_MAX–ICA_MIN DD (%/V) = × 100% (5.5V–4.5V) × ICA_AVG Where: ICA_AVG : the average ICA for each CA pin between VDD=4.5V and 5.5V ICA_MAX: the max ICA of each CA pin between VDD=4.5V and 5.5V ICA_MIN: the min ICA of each CA pin between VDD=4.5V and 5.5V VDS=1V 5. Application condition of power supply: LED_VDD ≥ VDD
A.C. Characteristics
VDD=2.7V~5.5V, Ta=25°C
Symbol Parameter Test Conditions Min. Typ. Max. Unit
fSYS System Clock On-chip RC oscillator 2.1 2.4 2.7 MHz Matrix-type1 (9×10 + 9×10) — 882 — Hz fLED LED Frame Rate Matrix-type2 (12×12) — 735 — Hz Matrix-type3 (16×16) — 551 — Hz VPOR VDD Start Voltage to Ensure Power-on Reset — — — 100 mV RRVDD VDD Rise Rate to Ensure Power-on Reset — 0.05 — — V/ms t Minimum Time for VDD Stay at VPOR to Ensure POR Power- on reset — 10 — — ms Rev. 1.10 10 April 11, 2019 Rev. 1.10 11 April 11, 2019 Document Outline Features Applications General Description Selection Table Block Diagram Pin Assignment Pin Description Approximate Internal Connections Absolute Maximum Ratings D.C. Characteristics A.C. Characteristics A.C. Characteristics – SPI 3-wire Serial Bus A.C. Characteristics – I2C Serial Bus Timing Diagrams SPI 3-wire Serial Bus Timing I2C Bus Timing Power on Reset Timing Functional Description Power-on Reset LED Driver System Oscillator Driver Outputs Address Pointer Open/Short Detection Function Over Temperature Protection Constant Current Output Load Supply Voltage – LED_VDD Display Data RAM – DDRAM PWM Data WidthTiming Fade Data RAM LED On/Off Control RAM Data Command Description Command Table Software Reset RAM Page Address Set Picture Display Address Movie Display Start Address Movie Playing Length Movie Cycle Time Movie Page Delay Time Last Page Set Picture Scrolling Control Display Mode Configuration Mode Fade Function Control Global Fade Time Cascade Mode System Control Constant Current Ratio Brightness Control Mode Control Blanking Control Voltage Setting Read Open Detection Data Read Short Detection Data Read Register Status Read Movie Frame Status Read Movie Loop Status Read Function Flag SPI 3-wire Serial Interface Write Operation Read Operation I2C Serial Interface Data Validity START and STOP Conditions Byte Format Acknowledge Slave Addressing Write Operation Read Operation Power Supply Sequence Operation Flow Charts Application Circuits LED Matrix Circuit RGB LED Matrix Circuit Single LED IC Application Cascade Function Cascade Control Flow Package Information 24-pin SSOP-EP (150mil) Outline Dimensions 28-pin SSOP (150mil) Outline Dimensions SAW Type 32-pin QFN (4mm×4mm×0.75mm) Outline Dimensions