Datasheet ALED6000 (STMicroelectronics) - 10

ManufacturerSTMicroelectronics
DescriptionAutomotive 3 A 61 V monolithic current source with dimming capability
Pages / Page45 / 10 — ALED6000. Oscillator and synchronization. Figure 5. Switching frequency …
File Format / SizePDF / 3.4 Mb
Document LanguageEnglish

ALED6000. Oscillator and synchronization. Figure 5. Switching frequency programmability. DS13018. Rev 2. page 10/45

ALED6000 Oscillator and synchronization Figure 5 Switching frequency programmability DS13018 Rev 2 page 10/45

Model Line for this Datasheet

Text Version of Document

link to page 11 link to page 11 link to page 11
ALED6000 Oscillator and synchronization Figure 5. Switching frequency programmability
1500 1400 1300 1200 1100 z] 1000 H 900 [k 800 w 700 Fs 600 500 400 300 10 20 30 40 50 60 70 80 90 100 RFSW [kΩ] To improve the line transient performance, keeping the PWM gain constant versus the input voltage, the input voltage feed-forward is implemented by changing the slope of the saw-tooth ramp, according to the input voltage change (Figure 6. Feed-forward a). The slope of the sawtooth also changes if the oscillator frequency is programmed by the external resistor. In this way a frequency feed-forward is implemented (Figure 6. Feed-forwardb) in order to keep the PWM modulator gain constant versus the switching frequency. On the SYNCH pin the synchronization signal is generated. This signal has a phase shift of 180° with respect to the clock. This delay is useful when two devices are synchronized connecting the SYNCH pins together. When SYNCH pins are connected, the device with a higher oscillator frequency works as master, so the slave device switches at the frequency of the master but with a delay of half a period. This helps reducing the RMS current flowing through the input capacitor. Up to five ALED6000s can be connected to the same SYNCH pin; however, the clock phase-shift from master switching frequency to slave input clock is 180°. The ALED6000 device can be synchronized to work at a higher frequency, in the range 250 kHz-1500 kHz, providing an external clock signal on SYNCH pin. The synchronization changes the saw-tooth amplitude, also affecting the PWM gain (Figure 6. Feed-forwardc). This change must be taken into account when the loop stability is studied. In order to minimize the change of PWM gain, the free-running frequency should be set (with a resistor on the FSW pin) only slightly lower than the external clock frequency. This pre-adjusting of the slave IC switching frequency keeps the truncation of the ramp saw-tooth negligible. In case two or more (up to five) ALED6000 SYNCH pins are tied together, the ALED6000 IC with higher programmed switching frequency is typically the master device; however, the SYNCH circuit is also able to synchronize with a slightly lower external frequency, so the frequency pre-adjustment with the same resistor on the FSW pin, as suggested above, is required for a proper operation. The SYNCH signal is provided as soon as EN is asserted high; however, if DIM is kept low for more than TDIMTO timeout, the SYNCH signal is no more available until DIM re-assertion high.
DS13018
-
Rev 2 page 10/45
Document Outline Cover image Features Applications Description 1 Application schematic 2 Block diagram 3 Pin settings 3.1 Pin connection 3.2 Pin description 3.3 Maximum ratings 3.4 Thermal data 3.5 ESD protection 4 Electrical characteristics 5 Functional description 5.1 Oscillator and synchronization 5.2 Soft-start 5.3 Digital dimming 5.4 Error amplifier and light-load management 5.5 Low VIN operation 5.6 Overcurrent protection 5.7 Overtemperature protection 6 Application information 6.1 Input capacitor selection 6.2 Output capacitor and inductor selection 6.3 Compensation strategy 6.4 Thermal considerations 6.5 Layout considerations 7 Demonstration board 8 Application notes – alternative topologies 8.1 Inverting buck-boost 8.2 Positive buck-boost 8.3 Floating boost 8.4 Compensation strategy for alternative topologies 9 Package information 9.1 HTSSOP16 package information Revision history