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TDA3618 Fiches technique(PDF) 6 Page - NXP Semiconductors |
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TDA3618 Fiches technique(HTML) 6 Page - NXP Semiconductors |
6 / 24 page 1999 Sep 01 6 Philips Semiconductors Preliminary specification Multiple voltage regulator with switch and ignition buffers TDA3618JR FUNCTIONAL DESCRIPTION The TDA3618JR is a multiple output voltage regulator with a power switch, intended for use in car radios with or without a microcontroller. Because of the low-voltage operation of the car radio, low-voltage drop regulators are used in the TDA3618JR. Regulator 2 switches on when the backup voltage exceeds 6.5 V for the first time and switches off again when the output voltage of regulator 2 falls below 1.9 V (this is far below an engine start). When regulator 2 is switched on and its output voltage is within its voltage range, the reset output is enabled (RES goes HIGH through a pull-up resistor) to generate a reset to the microcontroller. The reset cycles can be extended by an external capacitor at pin 13. This start-up feature is included to secure a smooth start-up of the microcontroller at first connection, without uncontrolled switching of regulator 2 during the start-up sequence. The charge of the backup capacitor can be used to supply regulator 2 for a short period when the supply drops to 0 V (the time depends on the value of the storage capacitor). The output stages (regulators 1 and 3) of this regulator have an extremely low noise behaviour and good stability. Regulators 1 and 3 are stabilized by using small output capacitors. When both regulator 2 and the supply voltage (VP > 4.5 V) are available, regulators 1 and 3 can be operated by means of enable inputs (pins 10 and 4 respectively). The HOLD output pin is normally HIGH and is active LOW. The HOLD output pin is connected to an open collector NPN transistor and must have an external pull-up resistor to operate. The HOLD output is controlled by a LOW detection circuit which, when activated, pulls the warning output LOW (enabled). The hold outputs of the regulators are connected to an OR gate inside the IC such that the hold is activated (goes LOW) when the regulator voltages of regulator 1 and/or regulator 3 are out of regulation for any reason. Each regulator enable input controls its own hold circuit, such that if a regulator is disabled or switched off, the hold circuit for that regulator is disabled. The hold is also controlled by the temperature and load dump protection. Activating the temperature or load dump protection causes a hold (LOW) during the time the protection is activated. When all regulators are switched off, the HOLD output is controlled by the battery line (pin 1), temperature protection and load dump protection. The hold is enabled (LOW) at low battery voltages. This indicates that it is not possible to get regulator 1 into regulation when switching it on. The hold function includes hysteresis to avoid oscillations when the regulator voltage crosses the hold threshold. The HOLD output becomes also active (LOW) when the switch is in foldback protection mode, see Fig.4 for a timing diagram. The block diagram is given in Fig.3. The power switch can also be controlled by means of a separate enable input (pin 11). All output pins are fully protected. The regulators are protected against load dump (regulators 1 and 3 switch off at supply voltages >18 V) and short circuit (foldback current protection). The switch contains a current protection. However, this protection is delayed at short circuit by the reset delay capacitor. During this time, the output current is limited to a peak value of at least 3 and 2 A continuous (VP ≤ 18 V). In the normal situation, the voltage on the reset delay capacitor is about 3.5 V (depending on the temperature). The switch output is about VP − 0.4 V. At operational temperature, the switch can deliver at least 3 A. At high temperature, the switch can deliver about 2 A. During an overload condition or short circuit (VSW <VP − 3.7 V), the voltage on the reset delay capacitor rises 0.6 V above the voltage of regulator 2. This rise time depends on the capacitor connected on the CRES (pin 13). During this time, the switch can deliver more than 3 A. The charge current of the reset delay capacitor is typically 4 µA and the voltage swing about 1.5 V. When regulator 2 is out of regulation and generates a reset, the switch can only deliver 2 A and will go in the foldback protection without delay. At supply voltages >17 V, the switch is clamped at 16 V maximum (to avoid externally connected circuits being damaged by an overvoltage) and the switch will switch off at load dump. Interfacing with the microcontroller (simple full/semi on/off logic applications) can be realized with two independent ignition Schmitt triggers and ignition output buffers (one open collector and one push-pull output). Ignition 1 output is inverted. The total timing diagrams are shown in Figs 4 and 5. |
Numéro de pièce similaire - TDA3618 |
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Description similaire - TDA3618 |
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