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UM0575

Bill of material

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Appendix B

Bill of material

The following table gives the bill of material of the e-STARTER board for a 230 V application.
The values are given for indication as some values can be changed to adapt the voltage
level detection (R3, R4, DZ1) or to increase the board immunity (R6, C4, R7, C2, C3, R8,
C1).

Table 1.

e-STARTER bill of material

Index

Qty

Reference

Name

Package

Manufacturer

Manufacturer’s ordering

code / orderable part

number

1

1

TRIAC

T1

TO-220

STMicroelectronics

ACST6-7ST

2

1

SCR

T2

SOT-223

STMicroelectronics

X0202NN 5BA4

3

1

PNP transistor

Q1

SOT-23

Philips

PMBT2907A

4

1

NPN transistor

Q2

SOT-23

Philips

PMBT2222A

5

1

N-Channel

transistor

M1

SOT-23

Fairchild

MMBF170

6

1

Resistor 620 k

Ω

1/4 W 1%

R1

TH,

Axial,0207

7

1

Resistor 470 k

Ω

1/4 W 1%

R2

TH,

Axial,0207

8

1

Resistor 510 k

Ω

1/4 W 1%

R3

TH,

Axial,0207

9

1

Resistor 30 k

Ω

1/4 W 1%

R4

TH,Axial,020,

pitch 2,5

10

1

Resistor 10 k

Ω

1/4 W 1%

R5

TH,Axial,0207

11

1

Resistor 0 1/4 W

R6

TH,Axial,0207

12

1

Resistor 220

1/4 W 1%

R7

SMD 1206

13

1

Resistor 1 M

1/4W 1%

R8

TH,Axial,0207

14

1

Ceramic capacitor

10 nF/50 V 20%

C1

SMD 1206

15

1

Ceramic capacitor

10 nF/50 V 20%

C2

SMD 1206

16

1

No capacitor

connected

C3

SMD 1206

17

1

Capacitor 22 nF /

250 VAC

C4

TH, pitch 11

18

1

Single phase

bridge rectifier

DF06

DIL DB-1

WTE / GOOD-ARK

DF06

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Содержание STEVAL-IHT003V1

Страница 1: ...use it increases safety in case of ACST short circuit or diode mode failure ref EN60335 1 This solution allows the starter standby losses to be decreased from typically 2 5 W to 380 mW or 40 mW respectively for 230 V and 100 V applications The e STARTER operation principle along with detailed schematics are given as well as demonstration board performances and the method to adapt the circuit to a ...

Страница 2: ... Schematics 5 1 3 2 ON state 6 2 Board performances 8 2 1 Maximum current 8 2 2 Standby power losses 8 2 3 Fast transient voltages 9 2 4 Surge voltages 9 2 5 Reliability and safety 10 3 Getting started 12 3 1 Voltage level setting 12 3 2 Connections 13 4 Conclusion 14 Appendix A Component layout and printed circuit board 15 Appendix B Bill of material 17 ...

Страница 3: ...6 Voltage spikes at zero current 7 Figure 7 PTC turnoff 7 Figure 8 e STARTER maximum current versus conduction time 8 Figure 9 Spurious e STARTER triggering with a 2 kV surge 230 V compressor 10 Figure 10 e STARTER voltage limited to 648 V thanks to the RUN capacitor 2 kV IEC61000 4 5 surge 10 Figure 11 VPTC1 and VPTC2 definitions 12 Figure 12 e STARTER connections 13 Figure 13 e STARTER topside s...

Страница 4: ... high power losses approx 2 5 W Figure 2 gives the typical schematics of this application where a run or a start capacitor can be connected in parallel point 1 or in series point 2 respectively with the PTC 1 2 Standard PTC behavior The transition between PTC ON and OFF states brings a voltage increase across this variable resistor Figure 3 and Figure 4 show two oscillograms of the same PTC in two...

Страница 5: ...iled in the following sections The traditional PTC resistor has to be connected between the START and the PTC solder pads refer also to Section 3 2 Note The C3 capacitor is not soldered on the breadboards It can be added if one wants to evaluate its impact on board immunity Figure 3 PTC operation no RUN cap compressor OFF time 10 mains 198 V RMS Figure 4 PTC operation with RUN cap compressor OFF t...

Страница 6: ...es at each zero current crossing point typically around 40 V as shown in Figure 6 for a 230 V compressor Applying the click test of norm EN55014 the noise duration could last more than 200 ms depending on the type of compressor and PTC The individual spikes last a few hundreds of microseconds and are spaced at intervals of 10 ms so the limits of continuous disturbance are applicable Since the spik...

Страница 7: ...trigger T2 so T1 also stays OFF The PTC is then turned off No more current circulates through the PTC thus no power is dissipated in it Figure 7 shows the typical behavior of this circuit The C1 capacitor voltage gives an image of the PTC voltage When its value reaches the DZ1 clamping level 15 V the MOS gate is latched to 15 V The PTC is then turned off refer to the IA ACST6 current waveform Figu...

Страница 8: ... RMS current during 3 s worst case of typical 100 V 60 Hz compressors 50 C after an 11 A RMS current during 0 5 s worst case of typical 230 V 50 Hz compressors This ensures that TJ remains below its maximum allowed temperature 125 C even with a 75 C initial temperature Figure 8 gives the maximum repetitive RMS current that the ACST6 7ST can withstand without any heatsink This curve is given for 40...

Страница 9: ...W 2 3 Fast transient voltages Immunity tests as described by the IEC 61000 4 4 standard have been performed with the schematics of Figure 5 connected in series with a compressor without a RUN or START capacitor e STARTER spurious triggerings have not been detected with spikes up to 2 kV This high immunity level has been reached thanks to the high dV dt capability of the ACST6 the improved dV dt ca...

Страница 10: ...y and safety Reliability tests have been performed with ACST6 7ST samples submitted to a current shape equivalent to an inrush current of 11 A RMS during 0 5 s No parameter evolution of these samples has been detected after 450 000 cycles which is representative of the lifetime of a refrigerator This result demonstrates the excellent capability of these 6 A products even for applications with high...

Страница 11: ...se a thin copper track Figure 15 between the start winding terminal and the e STARTER control circuit For example a 130 µm track conducts the 1mA peak current in normal operation but blows if the whole start winding current at least equal to 5 A RMS circulates through it The ACST6 then remains on the entire time the thermostat switch is closed The behavior is the same as a standard PTC without the...

Страница 12: ...ture The PTC peak voltages in ON and in OFF state are called VPTC1 and VPTC2 respectively refer to the dashed lines in Figure 11 Then the VPTC OFF level has to be chosen higher than the maximum value of VPTC1 in order to ensure that the ACST6 has indeed been turned on at the beginning The VPTC OFF level also has to be lower than the minimum value of VPTC2 in order to turn off the ACST6 at the end ...

Страница 13: ...ecause the board has to be plugged into the mains and because no insulation is used between the mains voltage and the accessible conductive parts 2 There is no insulation varnish on solders Care should be taken when performing measurements for example voltage probes have to be connected only when the line and the power supply voltages are removed The e STARTER has to be connected to a PTC and a co...

Страница 14: ...mpressors PTCs The e STARTER allows the designers of cold appliances to upgrade the efficiency class of refrigerators or freezers with a very low cost solution This solution allows the starter standby losses to be decreased from typically 2 5 W to 380 mW or 40 mW respectively for 230 V and 100 V applications The high reliability and immunity of this circuit are ideally suited to the severe require...

Страница 15: ... Component layout and printed circuit board Figure 13 and Figure 14 give the layout of the components for the top and the bottom layers respectively Figure 15 gives the copper side of the e STARTER demonstration board Figure 13 e STARTER topside silk screen AM00909v1 ...

Страница 16: ...Component layout and printed circuit board UM0575 16 20 Figure 14 e STARTER SMD components layout bottom view Figure 15 e STARTER copper side bottom view dimensions in cm AM00910v1 AM00911v1 ...

Страница 17: ...5BA4 3 1 PNP transistor Q1 SOT 23 Philips PMBT2907A 4 1 NPN transistor Q2 SOT 23 Philips PMBT2222A 5 1 N Channel transistor M1 SOT 23 Fairchild MMBF170 6 1 Resistor620 kΩ 1 4 W 1 R1 TH Axial 0207 7 1 Resistor 470 kΩ 1 4 W 1 R2 TH Axial 0207 8 1 Resistor 510 kΩ 1 4 W 1 R3 TH Axial 0207 9 1 Resistor 30 kΩ 1 4 W 1 R4 TH Axial 020 pitch 2 5 10 1 Resistor 10 kΩ 1 4 W 1 R5 TH Axial 0207 11 1 Resistor 0 ...

Страница 18: ...000 V 1 A D1 DO214 SMA 20 1 Small signal diode 1N4148 75 V 0 15 A D2 DO 35 21 1 Zener diode DZ1 DO 35 Fairchild Vishay BZX55C 15 Table 1 e STARTER bill of material continued Index Qty Reference Name Package Manufacturer Manufacturer s ordering code orderable part number ...

Страница 19: ...UM0575 Revision history 19 20 Revision history Table 2 Document revision history Date Revision Changes 13 Feb 2008 1 Initial release ...

Страница 20: ...ANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE ST PRODUCTS ARE NOT RECOMMENDED AUTHORIZED OR WARRANTED FOR USE IN MILITARY AIR CRAFT SPACE LIFE SAVING OR LIFE SUSTAINING APPLICATIONS...

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