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| INTEGRATED CIRCUITS DATA SHEET TEA152x family STARplugTM Product specification File under Integrated Circuits, IC11 2000 Sep 08 Philips Semiconductors Product specification STARplugTM FEATURES * Designed for general purpose supplies up to 50 W * Integrated power switch: - TEA1520: 48 ; 650 V - TEA1521: 24 ; 650 V - TEA1522: 12 ; 650 V - TEA1523: 6.5 ; 650 V - TEA1524: 3.4 ; 650 V. * Operates from universal AC mains supplies (80 to 276 V) * Adjustable frequency for flexible design * RC oscillator for load insensitive regulation loop constant * Valley switching for minimum switch-on loss (not implemented in TEA152xAJM versions) * Frequency reduction at low power output makes low standby power possible (<100 mW) * Adjustable overcurrent protection * Under voltage protection * Temperature protection * Short circuit winding protection * Simple application with both primary and secondary (opto) feedback * Available in 8-pin DIP, 14-pin SO and 9-pin DBS packages. GENERAL DESCRIPTION The TEA152x family is a Switched Mode Power Supply (SMPS) controller IC that operates directly from the rectified universal mains. It is implemented in the high voltage EZ-HV SOI process, combined with a low voltage BICMOS process. The device includes a high voltage power switch and a circuit for start-up directly from the rectified mains voltage. APPLICATIONS TEA152x family A dedicated circuit for valley switching is built in (not implemented in TEA152xAJM versions), which makes a very efficient slim-line electronic powerplug concept possible. In its most basic version of application, the TEA152x family acts as a voltage source. Here, no additional secondary electronics are required. A combined voltage and current source can be realized with minimum costs for external components. Implementation of the TEA152x family renders an efficient and low cost power supply system. Table 1 RDS(on) 48 24 12 6.5 3.4 Available type numbers DIP8 TEA1520P TEA1521P TEA1522P TEA1523P TEA1524P SO14 TEA1520T TEA1521T TEA1522T TEA1523T - DBS9P - - TEA1522AJM TEA1523AJM TEA1524AJM Typical application areas for the STARplugTM are: * Chargers * Adapters * STB (Set Top Box) * DVD * CD(R) * TV/monitor standby supplies * PC peripherals * Microcontroller supplies in home applications and small portable equipment, etc. 2000 Sep 08 2 Philips Semiconductors Product specification STARplugTM QUICK REFERENCE DATA SYMBOL Vdrain(max) RDS(on) PARAMETER maximum voltage at the DRAIN pin drain-source on-state resistance of TEA1520 drain-source on-state resistance of TEA1521 drain-source on-state resistance of TEA1522 drain-source on-state resistance of TEA1523 drain-source on-state resistance of TEA1524 VCC(max) fosc Idrain Tamb maximum supply voltage frequency range of oscillator supply current drawn from DRAIN no auxiliary supply pin ambient temperature CONDITIONS Tj > 0 C Tj = 25 C; Isource = -0.06 A Tj = 100 C; Isource = -0.06 A Tj = 25 C; Isource = -0.125 A Tj = 100 C; Isource = -0.125 A Tj = 25 C; Isource = -0.25 A Tj = 100 C; Isource = -0.25 A Tj = 25 C; Isource = -0.5 A Tj = 100 C; Isource = -0.5 A Tj = 25 C; Isource = -1.0 A Tj = 100 C; Isource = -1.0 A MIN. - - - - - - - - - - - - 10 - -20 TEA152x family TYP. - 48 68 24 34 12 17 6.5 9.0 3.4 4.8 - 100 1.5 - MAX. 650 55.2 78.2 27.6 39.1 13.8 19.6 7.5 10.0 3.9 5.5 40 200 - +85 UNIT V V kHz mA C ORDERING INFORMATION TYPE NUMBER TEA152xP TEA152xT TEA152xAJM PACKAGE NAME DIP8 SO14 DBS9P DESCRIPTION plastic dual in-line package; 8 leads (300 mil) plastic small outline package; 14 leads; body width 3.9 mm plastic DIL-bent-SIL power package; 9 leads (lead length 12/11 mm); exposed die pad VERSION SOT97-1 SOT108-1 SOT523-1 2000 Sep 08 3 Philips Semiconductors Product specification STARplugTM BLOCK DIAGRAM TEA152x family handbook, full pagewidth VCC 1 SUPPLY 8 DRAIN VALLEY TEA152x GND 2 LOGIC 100 mV 7 n.c. PWM stop RC 3 OSCILLATOR low freq THERMAL SHUTDOWN PROTECTION LOGIC F 6 SOURCE POWER-UP RESET 1.8 U blank overcurrent 4 2.5 V 10x short circuit winding 0.75 V 0.5 V 5 AUX REG MGT419 The valley switching circuit is not implemented in the TEA152xAJM versions. The pinning shown in this diagram is the pinning of the DIP8 package. For the pinning of the other packages, see the relevant pinning tables and pin configurations. Fig.1 Block diagram. 2000 Sep 08 4 Philips Semiconductors Product specification STARplugTM PINNING PIN SYMBOL TEA152xP VCC GND RC REG SGND AUX SOURCE n.c. DRAIN 1 2 3 4 - 5 6 7 8 TEA152xT 1 2, 3, 4, 5, 9 and 10 6 7 - 8 11 12 and 13 14 TEA152xAJM 1 2 3 4 5 6 7 8 9 supply voltage ground frequency setting regulation input TEA152x family DESCRIPTION signal ground; connected to exposed die pad; must be connected to pin 2 input for voltage from auxiliary winding for timing (demagnetization) source of internal MOS switch not connected drain of internal MOS switch; input for start-up current and valley sensing handbook, halfpage VCC 1 GND 2 8 DRAIN 7 n.c. SOURCE AUX handbook, halfpage VCC GND RC REG SGND 1 2 3 4 5 6 7 8 9 MGT422 TEA152xP RC REG 3 4 MGT420 6 5 TEA152xAJM Fig.2 Pin configuration of TEA152xP. AUX SOURCE n.c. DRAIN handbook, halfpage VCC GND GND GND GND RC REG 1 2 3 4 5 6 7 MGT421 14 DRAIN 13 n.c. 12 n.c. Fig.4 Pin configuration of TEA152xAJM. TEA152xT 11 SOURCE 10 GND 9 GND 8 AUX Fig.3 Pin configuration of TEA152xT. 2000 Sep 08 5 Philips Semiconductors Product specification STARplugTM FUNCTIONAL DESCRIPTION The TEA152x family is the heart of a compact flyback converter, with the IC placed at the primary side. The auxiliary winding of the transformer can be used for indirect feedback to control the isolated output. This additional winding also powers the IC. A more accurate control of the output voltage and/or current can be implemented with an additional secondary sensing circuit and optocoupler feedback. The TEA152x family uses voltage mode control. The frequency is determined by the maximum transformer demagnetizing time and the time of the oscillator. In the first case, the converter operates in the Self Oscillating Power Supply (SOPS) mode. In the latter case, it operates at a constant frequency, which can be adjusted with external components RRC and CRC. This mode is called Pulse Width Modulation (PWM). Furthermore, a primary stroke is started only in a valley of the secondary ringing. This valley switching principle minimizes capacitive switch-on losses. Start-up and under voltage lock-out Initially, the IC is self supplying from the rectified mains voltage. The IC starts switching as soon as the voltage on pin VCC passes the VCC(start) level. The supply is taken over by the auxiliary winding of the transformer as soon as VCC is high enough and the supply from the line is stopped for high efficiency operation. When for some reason the auxiliary supply is not sufficient, the high voltage supply also supplies the IC. As soon as the voltage on pin VCC drops below the VCC(stop) level, the IC stops switching and restarts from the rectified mains voltage. Oscillator The frequency of the oscillator is set by the external resistor and capacitor on pin RC. The external capacitor is charged rapidly to the VRC(max) level and, starting from a new primary stroke, it discharges to the VRC(min) level. Because the discharge is exponential, the relative sensitivity of the duty factor to the regulation voltage at low duty factor is almost equal to the sensitivity at high duty factors. This results in a more constant gain over the duty factor range compared to PWM systems with a linear sawtooth oscillator. Stable operation at low duty factors is easily realized. For high efficiency, the frequency is reduced as soon as the duty factor drops below a certain value. This is accomplished by increasing the oscillator charge time. Duty factor control TEA152x family The duty factor is controlled by the internal regulation voltage and the oscillator signal on pin RC. The internal regulation voltage is equal to the external regulation voltage (minus 2.5 V) multiplied by the gain of the error amplifier (typical 20 dB (10 x)). Valley switching (not implemented in TEA152xAJM versions) A new cycle is started when the primary switch is switched on (see Fig.5). After a certain time (determined by the oscillator voltage RC and the internal regulation level), the switch is turned off and the secondary stroke starts. The internal regulation level is determined by the voltage on pin REG. After the secondary stroke, the drain voltage shows an oscillation with a frequency of approximately 1 --------------------------------------------------( 2 x x ( Lp x Cp ) ) where Lp is the primary self inductance and Cp is the parasitic capacitance on the drain node. As soon as the oscillator voltage is high again and the secondary stroke has ended, the circuit waits for a low drain voltage before starting a new primary stroke. Figure 5 shows the drain voltage together with the valley signal, the signal indicating the secondary stroke and the RC voltage. The primary stroke starts some time before the actual valley at low ringing frequencies, and some time after the actual valley at high ringing frequencies. Figure 6 shows a typical curve for a reflected output voltage N x Vo of 80 V. This voltage is the output voltage Vo (see Fig.7) transferred to the primary side of the transformer with the factor N (determined by the turns ratio of the transformer). Figure 6 shows that the system switches exactly at minimum drain voltage for ringing frequencies of 480 kHz, thus reducing the switch-on losses to a minimum. At 200 kHz, the next primary stroke is started at 33 before the valley. The switch-on losses are still reduced significantly. Demagnetization The system operates in discontinuous conduction mode all the time. As long as the secondary stroke has not ended, the oscillator will not start a new primary stroke. During the first tsuppr seconds, demagnetization recognition is suppressed. This suppression may be necessary in applications where the transformer has a large leakage inductance and at low output voltages. 2000 Sep 08 6 Philips Semiconductors Product specification STARplugTM TEA152x family handbook, full pagewidth primary stroke secondary stroke secondary ringing drain valley secondary stroke A RC oscillator regulation level B MGT423 A: Start of new cycle with valley switching. B: Start of new cycle in a classical PWM system. Fig.5 Signals for valley switching. MGT424 handbook, halfpage 40 phase () 20 0 -20 -40 0 200 400 600 f (kHz) 800 Fig.6 Typical phase of drain ringing at switch-on (at N x Vo = 80 V). 2000 Sep 08 7 Philips Semiconductors Product specification STARplugTM Minimum and maximum duty factor The minimum duty factor of the switched mode power supply is 0%. The maximum duty factor is set to 75% (typical value at 100 kHz oscillation frequency). Overcurrent protection The cycle-by-cycle peak drain current limit circuit uses the external source resistor to measure the current. The circuit is activated after the leading edge blanking time tleb. The protection circuit limits the source voltage to VSRC(max), and thus limits the primary peak current. Short circuit winding protection The short circuit winding protection circuit is also activated after the leading edge blanking time. If the source voltage exceeds the short circuit winding protection voltage Vswp, the IC stops switching. Only a Power-on reset will restart normal operation. The short circuit winding protection also protects in case of a secondary diode short circuit. Overtemperature protection An accurate temperature protection is provided in the device. When the junction temperature exceeds the thermal shutdown temperature, the IC stops switching. During thermal protection, the IC current is lowered to the start-up current. The IC continues normal operation as soon as the overtemperature situation has disappeared. Overvoltage protection Overvoltage protection can be achieved in the application by pulling pin REG above its normal operation level. The current primary stroke is terminated immediately, and no new primary stroke is started until the voltage on pin REG drops to its normal operation level. Pin REG has an internal clamp. The current feed into this pin must be limited. TEA152x family Output characteristics of complete powerplug OUTPUT POWER A wide range of output power levels can be handled by choosing the RDS(on) and package of the TEA152x family. Power levels up to 50 W can be realised. ACCURACY The accuracy of the complete converter, functioning as a voltage source with primary sensing, is approximately 8% (mainly dependent on the transformer coupling). The accuracy with secondary sensing is defined by the accuracy of the external components. For safety requirements in case of optocoupler feedback loss, the primary sensing remains active when an overvoltage circuit is connected. EFFICIENCY An efficiency of 75% at maximum output power can be achieved for a complete converter designed for universal mains. RIPPLE A minimum ripple is obtained in a system designed for a maximum duty factor of 50% under normal operating conditions, and a minimized dead time. The magnitude of the ripple in the output voltage is determined by the frequency and duty factor of the converter, the output current level and the value and ESR of the output capacitor. Input characteristics of complete powerplug INPUT VOLTAGE The input voltage range comprises the universal AC mains (80 to 276 V). 2000 Sep 08 8 Philips Semiconductors Product specification STARplugTM TEA152x family LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 60134); all voltages are measured with respect to ground; positive currents flow into the device; pins VCC and RC are not allowed to be current driven, pins REG and AUX are not allowed to be voltage driven. SYMBOL Voltages VCC VRC Vsource Vdrain Currents IREG IAUX Isource regulation input current auxiliary winding input current source current of TEA1520 TEA1521 TEA1522 TEA1523 TEA1524 Idrain drain current of TEA1520 TEA1521 TEA1522 TEA1523 TEA1524 General Ptot total power dissipation TEA152xP TEA152xT TEA152xAJM Tstg Tamb Tj Vesd storage temperature ambient temperature junction temperature electrostatic discharge voltage human body model; note 1 machine model; note 2 Notes 1. Human body model: equivalent to discharging a 100 pF capacitor through a 1.5 k series resistor. All pins are 2500 V maximum, except pin DRAIN, which is 1000 V maximum. 2. Machine model: equivalent to discharging a 200 pF capacitor through a 0.75 H coil and a 10 series resistor. Tamb < 45 C Tamb < 50 C - - -55 -20 -20 - - 1.0 1.0 1.5 +150 +85 +145 2500 200 W W W C C C V V -0.25 -0.5 -1 -2 -3 +0.25 A +0.5 +1 +2 +3 A A A A -0.25 -0.5 -1 -2 -3 +0.25 A +0.5 +1 +2 +3 A A A A - -10 6 +5 mA mA low supply voltage oscillator input voltage source of the DMOS power transistor voltage drain of the DMOS power transistor voltage continuous -0.4 -0.4 -0.4 -0.4 +40 +3 +5 +650 V V V V PARAMETER CONDITIONS MIN. MAX. UNIT Tamb < 45 C without heatsink - 2000 Sep 08 9 Philips Semiconductors Product specification STARplugTM THERMAL CHARACTERISTICS SYMBOL Rth(j-a) TEA152xP TEA152xT TEA152xAJM Note PARAMETER thermal resistance from junction to ambient CONDITIONS note 1 in free air in free air in free air TEA152x family VALUE 100 91 65 UNIT K/W K/W K/W 1. Thermal resistance Rth(j-a) can be lower when the GND pins are connected to sufficient copper area on the printed-circuit board. See the TEA152x application notes for details. QUALITY SPECIFICATION In accordance with "SNW-FQ-611 part E". CHARACTERISTICS Tamb = 25 C; no overtemperature; all voltages are measured with respect to ground; currents are positive when flowing into the IC; unless otherwise specified. SYMBOL Supply ICC(operate) ICC(startup) Idrain ICC(ch) VCC(start) VCC(stop) supply current start-up supply current supply current drawn from DRAIN pin VCC pin charging current VCC start voltage VCC stop voltage (under voltage lock-out) normal operation start-up no auxiliary supply; Vdrain > 60 V with auxiliary supply; Vdrain > 60 V Vdrain > 60 V - - - - -6 9 7.0 1.3 180 1.5 30 -4 9.5 7.5 1.9 400 2 125 -3 10 8.0 mA A mA A mA V V PARAMETER CONDITIONS MIN. TYP. MAX. UNIT Pulse width modulator min max SOPS Vdemag tsuppr demagnetization recognition voltage level suppression of transformer ringing at start of secondary stroke 50 1.0 100 1.5 150 2.0 mV s minimum duty factor maximum duty factor f = 100 kHz - - 0 75 - - % % RC oscillator VRC(min) VRC(max) tRC(ch) fosc minimum voltage of RC oscillator setting maximum voltage of RC oscillator setting RC charging time frequency range of oscillator 60 2.4 - 10 75 2.5 1 100 90 2.6 - 200 mV V s kHz 2000 Sep 08 10 Philips Semiconductors Product specification STARplugTM TEA152x family SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT Duty factor regulator (pin REG) VREG GV(erroramp) VREG(clamp) dV/dtvalley fvalley input voltage voltage gain of error amplifier clamping voltage at pin REG IREG = 6 mA 2.4 - - -102 N x Vo = 100 V 200 - 2.5 20 - - 550 150 2.6 - 7.5 V dB V Valley switching (not implemented in TEA152xAJM versions) dV/dt for valley recognition ringing frequency for valley switching 102 800 - V/s kHz ns td(valley-swon) delay from valley recognition to switch-on Current and short circuit winding protection Vsource(max) maximum source voltage dV/dt = 0.1 V/s dV/dt = 0.5 V/s dV/dt = 0.5 V/s 0.47 - 0.7 250 0.50 160 0.75 350 0.53 185 0.8 450 V ns V ns td(propagation) delay from detecting VSRC(max) to switch-off Vswp tleb short circuit winding protection voltage blanking time for current and short circuit winding protection Output stage (FET) IL(drain) V(BR)drain RDS(on) drain leakage current drain breakdown voltage drain-source on-state resistance of TEA1520 drain-source on-state resistance of TEA1521 drain-source on-state resistance of TEA1522 drain-source on-state resistance of TEA1523 drain-source on-state resistance of TEA1524 tdrain(f) drain fall time Vdrain = 650 V Tj > 0 C Tj = 25 C; Isource = -0.06 A Tj = 100 C; Isource = -0.06 A Tj = 25 C; Isource = -0.125 A Tj = 100 C; Isource = -0.125 A Tj = 25 C; Isource = -0.25 A Tj = 100 C; Isource = -0.25 A Tj = 25 C; Isource = -0.5 A Tj = 100 C; Isource = -0.5 A Tj = 25 C; Isource = -1.0 A Tj = 100 C; Isource = -1.0 A Vi = 300 V; no external capacitor at drain - 650 - - - - - - - - - - - - - 48 68 24 34 12 17 6.5 9.0 3.4 4.8 75 125 - 55.2 78.2 27.6 39.1 13.8 19.6 7.5 10.0 3.9 5.5 - A V ns Temperature protection Tprot(max) Tprot(hys) maximum temperature threshold hysteresis temperature 150 - 160 2 170 - C C 2000 Sep 08 11 Philips Semiconductors Product specification STARplugTM APPLICATION INFORMATION TEA152x family handbook, full pagewidth LF Z1 CF1 CF2 D1 D5 C5 Vo mains R1 R2 D2 CVCC VCC GND 1 2 TEA152xP 3 4 8 7 6 5 DRAIN n.c. SOURCE AUX RI RAUX C6 - Ycap RRC RC R4 CRC R3 REG MGT425 Fig.7 Primary sensed application; configuration for TEA152xP. Further application information can be found in the TEA152x application notes. 2000 Sep 08 12 Philips Semiconductors Product specification STARplugTM PACKAGE OUTLINES DIP8: plastic dual in-line package; 8 leads (300 mil) TEA152x family SOT97-1 D seating plane ME A2 A L A1 c Z e b1 wM (e 1) b2 5 MH b 8 pin 1 index E 1 4 0 5 scale 10 mm DIMENSIONS (inch dimensions are derived from the original mm dimensions) UNIT mm inches A max. 4.2 0.17 A1 min. 0.51 0.020 A2 max. 3.2 0.13 b 1.73 1.14 0.068 0.045 b1 0.53 0.38 0.021 0.015 b2 1.07 0.89 0.042 0.035 c 0.36 0.23 0.014 0.009 D (1) 9.8 9.2 0.39 0.36 E (1) 6.48 6.20 0.26 0.24 e 2.54 0.10 e1 7.62 0.30 L 3.60 3.05 0.14 0.12 ME 8.25 7.80 0.32 0.31 MH 10.0 8.3 0.39 0.33 w 0.254 0.01 Z (1) max. 1.15 0.045 Note 1. Plastic or metal protrusions of 0.25 mm maximum per side are not included. OUTLINE VERSION SOT97-1 REFERENCES IEC 050G01 JEDEC MO-001 EIAJ SC-504-8 EUROPEAN PROJECTION ISSUE DATE 95-02-04 99-12-27 2000 Sep 08 13 Philips Semiconductors Product specification STARplugTM TEA152x family SO14: plastic small outline package; 14 leads; body width 3.9 mm SOT108-1 D E A X c y HE vMA Z 14 8 Q A2 A1 pin 1 index Lp 1 e bp 7 wM L detail X (A 3) A 0 2.5 scale 5 mm DIMENSIONS (inch dimensions are derived from the original mm dimensions) UNIT mm A max. 1.75 A1 0.25 0.10 A2 1.45 1.25 A3 0.25 0.01 bp 0.49 0.36 c 0.25 0.19 D (1) 8.75 8.55 E (1) 4.0 3.8 0.16 0.15 e 1.27 0.050 HE 6.2 5.8 L 1.05 Lp 1.0 0.4 Q 0.7 0.6 0.028 0.024 v 0.25 0.01 w 0.25 0.01 y 0.1 0.004 Z (1) 0.7 0.3 0.028 0.012 inches 0.069 0.010 0.057 0.004 0.049 0.019 0.0100 0.35 0.014 0.0075 0.34 0.244 0.039 0.041 0.228 0.016 8 0o o Note 1. Plastic or metal protrusions of 0.15 mm maximum per side are not included. OUTLINE VERSION SOT108-1 REFERENCES IEC 076E06 JEDEC MS-012 EIAJ EUROPEAN PROJECTION ISSUE DATE 97-05-22 99-12-27 2000 Sep 08 14 Philips Semiconductors Product specification STARplugTM TEA152x family DBS9P: plastic DIL-bent-SIL power package; 9 leads (lead length 12/11 mm); exposed die pad SOT523-1 non-concave x Eh q1 Dh D D1 P k view B: mounting base side A2 q2 E B q L2 L L3 L1 1 Z e DIMENSIONS (mm are the original dimensions) UNIT A2(2) bp mm c D(1) D1(2) Dh E(1) Eh e e1 9 wM 0 5 scale e1 e2 k L L1 L2 L3 4.5 3.7 m 2.8 P Q q q1 q2 v 0.8 w x Z(1) 1.65 1.10 10 mm Q m e2 c vM bp 2.7 0.80 0.58 13.2 2.3 0.65 0.48 12.8 6.2 14.7 3.0 12.4 11.4 6.7 3.5 3.5 2.54 1.27 5.08 5.8 14.3 2.0 11.0 10.0 5.5 3.4 1.15 17.5 4.85 3.8 3.1 0.85 16.3 3.6 0.3 0.02 Notes 1. Plastic or metal protrusions of 0.25 mm maximum per side are not included. 2. Plastic surface within circle area D1 may protrude 0.04 mm maximum. OUTLINE VERSION SOT523-1 REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 98-11-12 00-07-03 2000 Sep 08 15 Philips Semiconductors Product specification STARplugTM SOLDERING Introduction This text gives a very brief insight to a complex technology. A more in-depth account of soldering ICs can be found in our "Data Handbook IC26; Integrated Circuit Packages" (document order number 9398 652 90011). There is no soldering method that is ideal for all IC packages. Wave soldering is often preferred when through-hole and surface mount components are mixed on one printed-circuit board. However, wave soldering is not always suitable for surface mount ICs, or for printed-circuit boards with high population densities. In these situations reflow soldering is often used. Through-hole mount packages SOLDERING BY DIPPING OR BY SOLDER WAVE The maximum permissible temperature of the solder is 260 C; solder at this temperature must not be in contact with the joints for more than 5 seconds. The total contact time of successive solder waves must not exceed 5 seconds. The device may be mounted up to the seating plane, but the temperature of the plastic body must not exceed the specified maximum storage temperature (Tstg(max)). If the printed-circuit board has been pre-heated, forced cooling may be necessary immediately after soldering to keep the temperature within the permissible limit. MANUAL SOLDERING Apply the soldering iron (24 V or less) to the lead(s) of the package, either below the seating plane or not more than 2 mm above it. If the temperature of the soldering iron bit is less than 300 C it may remain in contact for up to 10 seconds. If the bit temperature is between 300 and 400 C, contact may be up to 5 seconds. Surface mount packages REFLOW SOLDERING Reflow soldering requires solder paste (a suspension of fine solder particles, flux and binding agent) to be applied to the printed-circuit board by screen printing, stencilling or pressure-syringe dispensing before package placement. Several methods exist for reflowing; for example, infrared/convection heating in a conveyor type oven. Throughput times (preheating, soldering and cooling) vary between 100 and 200 seconds depending on heating method. TEA152x family Typical reflow peak temperatures range from 215 to 250 C. The top-surface temperature of the packages should preferable be kept below 230 C. WAVE SOLDERING Conventional single wave soldering is not recommended for surface mount devices (SMDs) or printed-circuit boards with a high component density, as solder bridging and non-wetting can present major problems. To overcome these problems the double-wave soldering method was specifically developed. If wave soldering is used the following conditions must be observed for optimal results: * Use a double-wave soldering method comprising a turbulent wave with high upward pressure followed by a smooth laminar wave. * For packages with leads on two sides and a pitch (e): - larger than or equal to 1.27 mm, the footprint longitudinal axis is preferred to be parallel to the transport direction of the printed-circuit board; - smaller than 1.27 mm, the footprint longitudinal axis must be parallel to the transport direction of the printed-circuit board. The footprint must incorporate solder thieves at the downstream end. * For packages with leads on four sides, the footprint must be placed at a 45 angle to the transport direction of the printed-circuit board. The footprint must incorporate solder thieves downstream and at the side corners. During placement and before soldering, the package must be fixed with a droplet of adhesive. The adhesive can be applied by screen printing, pin transfer or syringe dispensing. The package can be soldered after the adhesive is cured. Typical dwell time is 4 seconds at 250 C. A mildly-activated flux will eliminate the need for removal of corrosive residues in most applications. MANUAL SOLDERING Fix the component by first soldering two diagonally-opposite end leads. Use a low voltage (24 V or less) soldering iron applied to the flat part of the lead. Contact time must be limited to 10 seconds at up to 300 C. When using a dedicated tool, all other leads can be soldered in one operation within 2 to 5 seconds between 270 and 320 C. 16 2000 Sep 08 Philips Semiconductors Product specification STARplugTM Suitability of IC packages for wave, reflow and dipping soldering methods TEA152x family SOLDERING METHOD MOUNTING PACKAGE WAVE Through-hole mount DBS, DIP, HDIP, SDIP, SIL Surface mount BGA, LFBGA, SQFP, TFBGA HBCC, HLQFP, HSQFP, HSOP, HTQFP, HTSSOP, SMS PLCC(4), SO, SOJ LQFP, QFP, TQFP SSOP, TSSOP, VSO Notes 1. All surface mount (SMD) packages are moisture sensitive. Depending upon the moisture content, the maximum temperature (with respect to time) and body size of the package, there is a risk that internal or external package cracks may occur due to vaporization of the moisture in them (the so called popcorn effect). For details, refer to the Drypack information in the "Data Handbook IC26; Integrated Circuit Packages; Section: Packing Methods". 2. For SDIP packages, the longitudinal axis must be parallel to the transport direction of the printed-circuit board. 3. These packages are not suitable for wave soldering as a solder joint between the printed-circuit board and heatsink (at bottom version) can not be achieved, and as solder may stick to the heatsink (on top version). 4. If wave soldering is considered, then the package must be placed at a 45 angle to the solder wave direction. The package footprint must incorporate solder thieves downstream and at the side corners. 5. Wave soldering is only suitable for LQFP, QFP and TQFP packages with a pitch (e) equal to or larger than 0.8 mm; it is definitely not suitable for packages with a pitch (e) equal to or smaller than 0.65 mm. 6. Wave soldering is only suitable for SSOP and TSSOP packages with a pitch (e) equal to or larger than 0.65 mm; it is definitely not suitable for packages with a pitch (e) equal to or smaller than 0.5 mm. suitable(2) not suitable not suitable(3) suitable not recommended(4)(5) not recommended(6) REFLOW(1) DIPPING - suitable suitable suitable suitable suitable suitable - - - - - 2000 Sep 08 17 Philips Semiconductors Product specification STARplugTM DATA SHEET STATUS DATA SHEET STATUS Objective specification PRODUCT STATUS Development DEFINITIONS (1) TEA152x family This data sheet contains the design target or goal specifications for product development. Specification may change in any manner without notice. This data sheet contains preliminary data, and supplementary data will be published at a later date. Philips Semiconductors reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. This data sheet contains final specifications. Philips Semiconductors reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. Preliminary specification Qualification Product specification Production Note 1. Please consult the most recently issued data sheet before initiating or completing a design. DEFINITIONS Short-form specification The data in a short-form specification is extracted from a full data sheet with the same type number and title. For detailed information see the relevant data sheet or data handbook. Limiting values definition Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 60134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Applications that are described herein for any of these products are for illustrative purposes only. Philips Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or modification. DISCLAIMERS Life support applications These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application. Right to make changes Philips Semiconductors reserves the right to make changes, without notice, in the products, including circuits, standard cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no responsibility or liability for the use of any of these products, conveys no licence or title under any patent, copyright, or mask work right to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless otherwise specified. 2000 Sep 08 18 Philips Semiconductors Product specification STARplugTM NOTES TEA152x family 2000 Sep 08 19 Philips Semiconductors - a worldwide company Argentina: see South America Australia: 3 Figtree Drive, HOMEBUSH, NSW 2140, Tel. +61 2 9704 8141, Fax. +61 2 9704 8139 Austria: Computerstr. 6, A-1101 WIEN, P.O. Box 213, Tel. +43 1 60 101 1248, Fax. +43 1 60 101 1210 Belarus: Hotel Minsk Business Center, Bld. 3, r. 1211, Volodarski Str. 6, 220050 MINSK, Tel. +375 172 20 0733, Fax. +375 172 20 0773 Belgium: see The Netherlands Brazil: see South America Bulgaria: Philips Bulgaria Ltd., Energoproject, 15th floor, 51 James Bourchier Blvd., 1407 SOFIA, Tel. +359 2 68 9211, Fax. +359 2 68 9102 Canada: PHILIPS SEMICONDUCTORS/COMPONENTS, Tel. +1 800 234 7381, Fax. +1 800 943 0087 China/Hong Kong: 501 Hong Kong Industrial Technology Centre, 72 Tat Chee Avenue, Kowloon Tong, HONG KONG, Tel. +852 2319 7888, Fax. +852 2319 7700 Colombia: see South America Czech Republic: see Austria Denmark: Sydhavnsgade 23, 1780 COPENHAGEN V, Tel. +45 33 29 3333, Fax. +45 33 29 3905 Finland: Sinikalliontie 3, FIN-02630 ESPOO, Tel. +358 9 615 800, Fax. +358 9 6158 0920 France: 51 Rue Carnot, BP317, 92156 SURESNES Cedex, Tel. +33 1 4099 6161, Fax. +33 1 4099 6427 Germany: Hammerbrookstrae 69, D-20097 HAMBURG, Tel. +49 40 2353 60, Fax. +49 40 2353 6300 Hungary: see Austria India: Philips INDIA Ltd, Band Box Building, 2nd floor, 254-D, Dr. Annie Besant Road, Worli, MUMBAI 400 025, Tel. +91 22 493 8541, Fax. +91 22 493 0966 Indonesia: PT Philips Development Corporation, Semiconductors Division, Gedung Philips, Jl. Buncit Raya Kav.99-100, JAKARTA 12510, Tel. +62 21 794 0040 ext. 2501, Fax. +62 21 794 0080 Ireland: Newstead, Clonskeagh, DUBLIN 14, Tel. +353 1 7640 000, Fax. +353 1 7640 200 Israel: RAPAC Electronics, 7 Kehilat Saloniki St, PO Box 18053, TEL AVIV 61180, Tel. +972 3 645 0444, Fax. +972 3 649 1007 Italy: PHILIPS SEMICONDUCTORS, Via Casati, 23 - 20052 MONZA (MI), Tel. +39 039 203 6838, Fax +39 039 203 6800 Japan: Philips Bldg 13-37, Kohnan 2-chome, Minato-ku, TOKYO 108-8507, Tel. +81 3 3740 5130, Fax. +81 3 3740 5057 Korea: Philips House, 260-199 Itaewon-dong, Yongsan-ku, SEOUL, Tel. +82 2 709 1412, Fax. +82 2 709 1415 Malaysia: No. 76 Jalan Universiti, 46200 PETALING JAYA, SELANGOR, Tel. +60 3 750 5214, Fax. +60 3 757 4880 Mexico: 5900 Gateway East, Suite 200, EL PASO, TEXAS 79905, Tel. +9-5 800 234 7381, Fax +9-5 800 943 0087 Middle East: see Italy Netherlands: Postbus 90050, 5600 PB EINDHOVEN, Bldg. VB, Tel. +31 40 27 82785, Fax. +31 40 27 88399 New Zealand: 2 Wagener Place, C.P.O. Box 1041, AUCKLAND, Tel. +64 9 849 4160, Fax. +64 9 849 7811 Norway: Box 1, Manglerud 0612, OSLO, Tel. +47 22 74 8000, Fax. +47 22 74 8341 Pakistan: see Singapore Philippines: Philips Semiconductors Philippines Inc., 106 Valero St. Salcedo Village, P.O. Box 2108 MCC, MAKATI, Metro MANILA, Tel. +63 2 816 6380, Fax. +63 2 817 3474 Poland: Al.Jerozolimskie 195 B, 02-222 WARSAW, Tel. +48 22 5710 000, Fax. +48 22 5710 001 Portugal: see Spain Romania: see Italy Russia: Philips Russia, Ul. Usatcheva 35A, 119048 MOSCOW, Tel. +7 095 755 6918, Fax. +7 095 755 6919 Singapore: Lorong 1, Toa Payoh, SINGAPORE 319762, Tel. +65 350 2538, Fax. +65 251 6500 Slovakia: see Austria Slovenia: see Italy South Africa: S.A. PHILIPS Pty Ltd., 195-215 Main Road Martindale, 2092 JOHANNESBURG, P.O. Box 58088 Newville 2114, Tel. +27 11 471 5401, Fax. +27 11 471 5398 South America: Al. Vicente Pinzon, 173, 6th floor, 04547-130 SAO PAULO, SP, Brazil, Tel. +55 11 821 2333, Fax. +55 11 821 2382 Spain: Balmes 22, 08007 BARCELONA, Tel. +34 93 301 6312, Fax. +34 93 301 4107 Sweden: Kottbygatan 7, Akalla, S-16485 STOCKHOLM, Tel. +46 8 5985 2000, Fax. +46 8 5985 2745 Switzerland: Allmendstrasse 140, CH-8027 ZURICH, Tel. +41 1 488 2741 Fax. +41 1 488 3263 Taiwan: Philips Semiconductors, 5F, No. 96, Chien Kuo N. Rd., Sec. 1, TAIPEI, Taiwan Tel. +886 2 2134 2451, Fax. +886 2 2134 2874 Thailand: PHILIPS ELECTRONICS (THAILAND) Ltd., 60/14 MOO 11, Bangna Trad Road KM. 3, Bagna, BANGKOK 10260, Tel. +66 2 361 7910, Fax. +66 2 398 3447 Turkey: Yukari Dudullu, Org. San. Blg., 2.Cad. Nr. 28 81260 Umraniye, ISTANBUL, Tel. +90 216 522 1500, Fax. +90 216 522 1813 Ukraine: PHILIPS UKRAINE, 4 Patrice Lumumba str., Building B, Floor 7, 252042 KIEV, Tel. +380 44 264 2776, Fax. +380 44 268 0461 United Kingdom: Philips Semiconductors Ltd., 276 Bath Road, Hayes, MIDDLESEX UB3 5BX, Tel. +44 208 730 5000, Fax. +44 208 754 8421 United States: 811 East Arques Avenue, SUNNYVALE, CA 94088-3409, Tel. +1 800 234 7381, Fax. +1 800 943 0087 Uruguay: see South America Vietnam: see Singapore Yugoslavia: PHILIPS, Trg N. Pasica 5/v, 11000 BEOGRAD, Tel. +381 11 3341 299, Fax.+381 11 3342 553 For all other countries apply to: Philips Semiconductors, Marketing Communications, Building BE-p, P.O. Box 218, 5600 MD EINDHOVEN, The Netherlands, Fax. +31 40 27 24825 (c) Philips Electronics N.V. 2000 Internet: http://www.semiconductors.philips.com SCA 70 All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights. Printed in The Netherlands 613502/01/pp20 Date of release: 2000 Sep 08 Document order number: 9397 750 07242 |
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