L6206PD STMicroelectronics, L6206PD Datasheet
L6206PD
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L6206PD
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L6206PD Summary of contents
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... MOSFETs plus a diagnostic output that can be easily used to implement the overcurrent protection. V BOOT OVER CURRENT A DETECTION 10V GATE LOGIC 10V 5V OVER CURRENT B DETECTION GATE LOGIC PowerSO36 (20+2+2) ORDERING NUMBERS: L6206N (PowerDIP24) L6206PD (PowerSO36) L6206D (SO24) V BOOT 10V BRIDGE A BRIDGE B D99IN1088A L6206 SO24 (20+2+ OUT1 A OUT2 A SENSE OUT1 B ...
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L6206 ABSOLUTE MAXIMUM RATINGS Symbol Parameter V Supply Voltage S V Differential Voltage between OUT1 , OUT2 , SENSE OUT1 , OUT2 B B OCD ,OCD OCD pins Voltage Range A B ...
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THERMAL DATA Symbol R MaximumThermal Resistance Junction-Pins th-j-pins R Maximum Thermal Resistance Junction-Case th-j-case R th-j-amb1 MaximumThermal Resistance Junction-Ambient R th-j-amb1 Maximum Thermal Resistance Junction-Ambient R th-j-amb1 MaximumThermal Resistance Junction-Ambient R th-j-amb2 Maximum Thermal Resistance Junction-Ambient (1) Mounted on a ...
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L6206 PIN DESCRIPTION PACKAGE SO24/ PowerSO36 Name PowerDIP24 PIN # PIN # 1 10 IN1 2 11 IN2 3 12 SENSE 4 13 OCD 5 15 OUT1 18, GND 18 OUT1 9 ...
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PIN DESCRIPTION (continued) PACKAGE SO24/ PowerSO36 Name PowerDIP24 PIN # PIN # 22 7 VCP PROGCL ELECTRICAL CHARACTERISTICS ( ° 48V, unless otherwise specified) amb s Symbol Parameter V Turn-on Threshold ...
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L6206 ELECTRICAL CHARACTERISTICS (continued ° 48V, unless otherwise specified) amb s Symbol Parameter I High Level Logic Input Current IH V Turn-on Input Threshold th(ON) V Turn-off Input Threshold th(OFF) V Input Threshold Hysteresis th(HYS) ...
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Figure 1. Switching Characteristic Definition EN V th(ON) V th(OFF) I OUT 90% 10% D01IN1316 Figure 2. Overcurrent Detection Timing Definition I OUT OCD Threshold V OCD 90% 10% t FALL t t D(OFF)EN D(ON) OCD(ON) OCD(OFF) L6206 ...
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L6206 CIRCUIT DESCRIPTION POWER STAGES and CHARGE PUMP The L6206 integrates two independent Power MOS Full Bridges. Each Power MOS has an Rd- son=0.3ohm (typical value @ 25°C), with intrinsic fast freewheeling diode. Cross conduction protection is achieved using a ...
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NON-DISSIPATIVE OVERCURRENT DETECTION AND PROTECTION In addition to the PWM current control, an overcurrent detection circuit (OCD) is integrated. This circuit can be used to provides protection against a short circuit to ground or between two phases of the bridge ...
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L6206 Figure 7. Overcurrent Protection Simplified Schematic C or LOGIC + ENA A C ENA OCD A 40 TYP. Figure 8. Overcurrent Protection Waveforms I OUT I SOVER th(ON) V th(OFF) ON OCD ...
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Figure 9. Output Current Protection Threshold versus R 5 4.5 4 3 VER [A] 2 1 Figure 10. t versus C DISABLE ...
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L6206 Figure 11. t versus C DELAY 0.1 1 THERMAL PROTECTION In addition to the Ovecurrent Detection, the L6206 integrates a Thermal Protection for preventing the device destruction in case of junction over temperature. It works sensing ...
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APPLICATION INFORMATION A typical application using L6206 is shown in Fig. 12. Typical component values for the application are shown in Table 2. A high quality ceramic capacitor in the range of 100 to 200 nF should be placed between ...
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L6206 PARALLELED OPERATION The outputs of the L6206 can be paralleled to increase the output current capability or reduce the power dissi- pation in the device at a given current level. It must be noted, however, that the internal wire ...
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To operate the device in parallel and maintain a lower over current threshold, Half Bridge 1 and the Half Bridge 2 of the Bridge A can be connected in parallel and the same done for the Bridge B as shown ...
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L6206 It is also possible to parallel the four Half Bridges to obtain a simple Half Bridge as shown in Fig. 15. In this configuration the, the over current threshold is equal to twice the minimum threshold set by the ...
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OUTPUT CURRENT CAPABILITY AND IC POWER DISSIPATION In Fig. 16 and Fig. 17 are shown the approximate relation between the output current and the IC power dissipa- tion using PWM current control driving two loads, for two different driving types: ...
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L6206 Figure 18. Mounting the PowerSO package. Slug soldered to PCB with dissipating area Figure 19. PowerSO36 Junction-Ambient thermal resistance versus on-board copper area. º Figure ...
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Figure 22. Typical Quiescent Current vs. Supply Voltage 5 1kHz sw 5.4 5.2 5.0 4.8 4 [V] S Figure 23. Normalized Typical Quiescent Current vs. Switching Frequency Iq / (Iq ...
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L6206 mm DIM. MIN. TYP. MAX. A 3.60 a1 0.10 0.30 0.004 a2 3. 0.10 b 0.22 0.38 0.008 c 0.23 0.32 0.009 D (1) 15.80 16.00 0.622 D1 9.40 9.80 0.370 E 13.90 14.50 0.547 e 0.65 ...
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DIM. MIN. TYP. MAX. MIN. A 4.320 A1 0.380 0.015 A2 3.300 B 0.410 0.460 0.510 0.016 B1 1.400 1.520 1.650 0.055 c 0.200 0.250 0.300 0.008 D 31.62 31.75 31.88 1.245 E 7.620 8.260 0.300 e 2.54 E1 ...
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L6206 mm DIM. MIN. TYP. MAX. A 2.35 2.65 0.093 A1 0.10 0.30 0.004 B 0.33 0.51 0.013 C 0.23 0.32 0.009 (1) 15.20 15.60 0.598 D E 7.40 7.60 0.291 e 1.27 H 10.0 10.65 0.394 h 0.25 0;75 ...
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