PDF TEA1401T Data sheet ( Hoja de datos )

Número de pieza	TEA1401T
Descripción	Power plug for the universal mains
Fabricantes	NXP Semiconductors
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No Preview Available ! INTEGRATED CIRCUITS DATA SHEET TEA1401T Power plug for the universal mains Preliminary speciﬁcation Supersedes data of 1996 Sep 27 File under Integrated Circuits, IC03 1997 Mar 07 1 page Philips Semiconductors Power plug for the universal mains Preliminary speciﬁcation TEA1401T FUNCTIONAL DESCRIPTION The TEA1401T is the heart of a compact flyback DC-to-DC converter, with the IC placed at the primary side. An auxiliary primary winding of the transformer is used for indirect feedback to control the isolated output. This extra winding also powers the device. Control of the converted power is carried out by current mode control and Pulse Frequency Modulation (PFM), as illustrated in Fig.1. The primary current is sensed by a comparator. The frequency is determined by the maximum of the transformer demagnetizing time and the time of the voltage controlled monostable multivibrator (single-shot). The TEA1401T senses signals at the primary side of the transformer to reconstruct the current and voltage which are present at the secondary side. Comparison of these reconstructions with the internal reference leads to adaptation of the turn-off current level for the primary switch and also to adaptation of the single-shot time. Current control (see Fig.3) The current through the main switch is measured by the peak detector shown in Fig.1. The timing block generates a signal ‘secondary stroke’ which is logic 1 when the voltage of the auxiliary winding is negative. The measured peak current, multiplied by the ratio of the resistors connected to pins 4 (SOURCE) and 7 (RI), is integrated by a capacitor during the secondary stroke. In this way a reconstruction is made of the secondary charge transfer. The charge estimation Q-pulse’ (see Fig.3) is drawn from the capacitor at pin 8 (CI) for each pulse. Also this capacitor, the charge error memory, is continuously charged with the reference current. In this way the real (reconstructed) current is compared with the reference yielding the voltage VCI at pin 8. The VCI level provides the turn-off current level for the main switch and the single-shot time. Input from the voltage part of the loop is used to improve the current reconstruction, resulting in a lower output conductance of the complete converter. In the block diagram this is denoted as ‘GOUT compensation’. The block ‘IPEAK correction’ is able to increase the output from the peak detector to improve line regulation. Voltage control The voltage from the auxiliary winding is sensed as a measure of the secondary voltage. During the secondary stroke the auxiliary winding delivers a negative voltage. This voltage is converted into a current by an external resistor at the RV pin between the transformer winding and virtual ground. This current is compared with a reference current. The difference between the reconstructed voltage and the reference is integrated during the secondary stroke by a capacitor on the CV pin. The voltage on the CV pin is transferred, via a ‘track-and-hold’ circuit, to the connection point of the current and the voltage loop. The ‘track-and-hold’ output provides the turn-off current level for the main switch and the single-shot time. The ‘track-and-hold’ circuit itself is present for loop stability. Input from the current part of the loop is used to improve the voltage reconstruction, resulting in lower output impedance of the complete converter (analog to the current control). In the block diagram this is denoted as ‘ROUT compensation’. Combined control The two loops, I loop and V loop, each request their own turn-off current level for the main switch and single-shot time. The block ‘minimum’ in the block diagram outputs the lowest value of the two, preventing the output voltage or current from exceeding its nominal value. The output characteristics of the power plug are displayed in Fig.4 (with enabled foldback option). Optional foldback (see Fig.4) The optional foldback feature of the TEA1401T is performed by sensing the voltage of the auxiliary winding at the end of the flyback stroke. It is actually not a voltage, but the current through pin 12 (RV) that is measured. When this voltage is low, the reference current in the current control loop is set to the low level Jref/3. The steep foldback enables a turn-down of the converter by short-circuiting the output on the secondary side, for example by a switch-transistor. 1997 Mar 07 5 5 Page Philips Semiconductors Power plug for the universal mains Preliminary speciﬁcation TEA1401T SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT Voltage regulation Itransfer(RV-CV) Vthres(RI) gm(ROUT) Ichain(CV) Vctrl(error) RV to CV current transfer ROUT converter voltage threshold at pin RI ROUT converter transconductance ICV/VRI CV chain error current total error of voltage control loop in IC VRI < 0.5 V VRI > 0.7 V ICV measurement, analogue to that of Ichain(CI) Current foldback; FOLDBACK (pin 13) connected to VIC (pin 14) IRV/IRref current ratio discrimination level ICI(foldback)/ICI(normal) current ratio Voltage overshoot IRV/IRref V4(overshoot) Icharge(overshoot) current ratio discrimination level peak voltage at pin 4 CPFM charge current at overshoot; ton > ton(min) at overshoot; VCPFM = 1 V References Vref Itransfer(Rref-CI) Itransfer(Rref-CV) Rref reference voltage Rref to CI current transfer Rref to CV current transfer Output stage ILO VDRAIN(cont) VDRAIN(lim) ∆VDRAIN-SOURCE DRAIN output leakage current DRAIN output voltage DRAIN output voltage limit DRAIN-SOURCE voltage drop tf DRAIN fall time VDRAIN = 550 V continuous 20 times Tamb = 25 °C; IDRAIN = 500 mA Tamb = 125 °C; IDRAIN = 500 mA Vin = 300 V; no external capacitor at pin DRAIN − − − −1.2 −4 0.05 0.26 1.1 75 − 1.24 − − − 0 625 − − − −1.00 − 0.65 − 4.4 − 0 +1.2 − +4 0.1 0.2 0.33 0.4 1.2 1.3 95 120 2.5 − 1.28 1.32 0.99 − 0.99 − − 100 − 550 −− −6 − 11 100 − A/A V µA/V µA % A/A A/A A/A mV µA V A/A A/A µA V V V V ns Temperature protection Tprot(max) Tprot(hyst) maximum temperature threshold hysteresis temperature 132 139 146 °C − ±1 − °C 1997 Mar 07 11 11 Page

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