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GB 19510.4-2009: Lamp controlgear -- Part 4: Particular requirements for a.c. supplied electronic ballasts for fluorescent lamps
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Lamp controlgear -- Part 4: Particular requirements for a.c. supplied electronic ballasts for fluorescent lamps
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| GB 19510.4-2005 | English | 679 |
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Lamp controlgear -- Part 4: Particular requirements for a.c. supplied electronic ballasts for fluorescent lamps
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Basic data | Standard ID | GB 19510.4-2009 (GB19510.4-2009) | | Description (Translated English) | Lamp controlgear -- Part 4: Particular requirements for a.c. supplied electronic ballasts for fluorescent lamps | | Sector / Industry | National Standard | | Classification of Chinese Standard | K74 | | Classification of International Standard | 29.140.99 | | Word Count Estimation | 27,210 | | Date of Issue | 2009-10-15 | | Date of Implementation | 2010-12-01 | | Older Standard (superseded by this standard) | GB 19510.4-2005 | | Adopted Standard | IEC 61347-2-3-2000, IDT | | Regulation (derived from) | Announcement of Newly Approved National Standards No. 11 of 2009 (No. 151 overall) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This Chinese standard provides for the IEC 60081 and IEC 60901 as well as other high- quite the fluorescent electronic ballasts for fluorescent lamps use special requirements, such electronic ballasts using 50 Hz or 60 Hz, 1 000 V AC travel less, but its Operating frequency is different from the frequency of the supply. Overheating protection with the special requirements of electronic ballasts is given in Appendix C. Emergency lighting AC/DC electronic ballasts special requirements are given in Appendix J. Performance requirements in GB/T 15144 are given. | GB 19510.4-2009: Lamp controlgear -- Part 4: Particular requirements for a.c. supplied electronic ballasts for fluorescent lamps
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Lamp controlgear.Part 4. Particular requirements for acsupplied electronic ballasts for fluorescent lamps
ICS 29.140.99
K74
National Standards of People's Republic of China
GB 19510.4-2009/IEC 61347-2-3.2000
Replacing GB 19510.4-2005
Part 4 of the control device lamp. fluorescent lamps
Particular requirements for ac supplied electronic ballasts
(IEC 61347-2-3.2000, IDT)
Posted 2009-10-15
2010-12-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅰ
Introduction Ⅲ
1 Scope 1
2 Normative references 1
3 Terms and definitions
4 2 General requirements
5 Test Description 2
6 Category 2
7 Flag 2
8 accidental contact with live parts of the measures to prevent 2
9 Terminal 2
10 protection grounding device 3
11 Moisture resistance and insulation 3
12 Dielectric strength 3
Heat winding 13 Test 3
14 Fault Status 3
15 protective measures associated member 3
16 abnormal state 3
End-of-life status 17 lamp ballast 8
18 Structure 13
19 creepage distances and clearances 13
20 Screws, current-carrying parts and connections 13
21 heat, fire and resistance to tracking 13
Corrosion-resistant 22 13
Appendix A (normative) to determine whether the conductive member is likely to cause an electric shock test live part 14
Particular requirements 14 Annex B (normative) control device for thermally protected lamp
Annex C (normative) Particular requirements for the control device 14 of the lamp with thermal protector
Annex D (normative) heating test control apparatus for thermally protected lamp of claim 14
Annex F (normative) anti-convection air chamber 14
Derivation of Annex G (normative) values of pulse voltages 14
Annex H (normative) Test 15
Annex I (normative) Methods of measurement of high-frequency leakage current 15
Appendix J (normative) Special supplementary safety emergency lighting AC/DC electronic ballast of claim 16
Annex K (informative) asymmetric pulse test circuit section (FIG. 3) used 19
Annex L (normative) ballast design information 20
References 21
GB 19510.4-2009/IEC 61347-2-3.2000
Foreword
All technical content in this section is mandatory.
GB 19510 "Lamp control" is divided into 14 parts.
--- Part 1. General requirements and safety requirements;
--- Part 2. starting devices (other than glow starters) - Particular requirements;
--- Part 3. Tungsten with AC/DC buck converter electronic Particular requirements;
--- Part 4. Particular requirements for the exchange of electronic fluorescent ballasts;
--- Part 5. Particular requirements for dc supplied electronic ballasts for general lighting of;
--- Part 6. Public transport lighting Particular requirements for dc electronic ballasts;
--- Part 7. DC electronic ballasts for aircraft lighting Particular requirements;
--- Part 8. DC electronic ballasts for emergency lighting Particular requirements;
--- Part 9. Particular requirements for ballasts for fluorescent lamps;
--- Part 10. discharge lamps (excluding fluorescent lamps) with the special requirements of the ballast;
--- Part 11. high frequency cold start tubular discharge lamps (neon) Specific requirements for electronic exchange and the frequency converter;
--- Part 12. Particular requirements for lighting and miscellaneous electronic circuits associated with;
--- Part 13. discharge lamps (excluding fluorescent lamps) or AC supplied electronic ballasts for special requirements;
Part --- Article 14. LED module with special requirements for dc or ac electronic control device.
This is Part 4 GB 19510's.
This section should be used with GB 19510.1-2009, it is appropriate in terms of GB 19510.1-2009 supplement or repair
Formulated from the following changes.
This section identical with IEC 61347-2-3.2000 "Part 2-3 Lamp control. electronic ballasts for fluorescent lamps special
Special requirements "and its 2004 revision Revision 1 and 2006 2 (in English).
This section is equivalent translation IEC 61347-2-3.2000, revised in 2004 1 (in English), revised in 2006, 2 (in English).
For ease of use, this section made the following editorial changes.
a) "this International Standard" be replaced by "this section";
b) use a decimal point instead of a decimal point ",". ",";
c) Remove IEC 61347-2-3.2000 Foreword;
d) For other international standards referenced it has been adopted as the equivalent of a standard, this part of the country with reference to these national standards
Or industry standards instead of the corresponding international standards, and the rest not tantamount to the adoption of a standard for the international standards in this section are
It is a direct reference (see Part 2 of this chapter).
This Part replaces GB 19510.4-2005 "Part 4 of the control device of the lamp. fluorescent lamps electronic ballasts to special
begging".
This section compared with GB 19510.4-2005 main differences are as follows.
a) increasing the state at the end of Chapter 17 of the ballast lamp life, and Chapter 17 ~ Chapter 21 to Chapter 18 ~ No.
Chapter 22;
Added. 3 asymmetric pulse test circuit of FIG.
Figure 4 asymmetric power measurement circuit
5 Disconnect the filament test circuit
b) Increase in Table K. 1 material specifications and Table K. 2 transformer specifications;
GB 19510.4-2009/IEC 61347-2-3.2000
c) "Chapter 15 - Chapter 21," in Chapter 5 of the words "Chapter 15 ~ Chapter 22";
d) In Chapter 16 In defined as. the rated lamp current;
e) Title to the Figure 2. High-frequency fluorescent capacitive leakage current limit, and Figure 2 is an exploded diagram 2a), Fig. 2b), Figure 2c);
f) 3.1 The electronic ballast exchange in the definition of "fluorescent tubes" to "fluorescent";
g) delete the definition of 3.2, 3.3 and 3.4 and the definition is changed to 3.2 and 3.3, respectively;
h) delete the definition of 3.6 and 3.7, and the definition is changed to 3.4, 3.5 and 3.9 3.5,3.8 and 3.6, respectively;
i) the definition of the new 3.5 will be "fluorescent tubes" to "fluorescent";
j) in Appendix H of the description to read "in accordance with Appendix H of GB 19510.1-2009 requirements";
k) increase in Appendix L;
l) References to add GB 18774 Safety requirements for double-ended fluorescent lamps.
This section of the Appendix A, Appendix B, Appendix C, Appendix D, Appendix E, Appendix F, Appendix G, Appendix H, Appendix I, Appendix J and Appendix L
Normative appendix, Appendix K is informative appendix.
This part is proposed by the China National Light Industry Council.
This part of the National Electric lighting Standardization Technical Committee (SAC/TC224) centralized.
This part mainly drafted by. National Electric Light Source Quality Supervision and Inspection Center (Shanghai), Zhejiang Sunshine Group Co., Ltd., Zhejiang morning
Hui Lighting Co., Ltd., Guangzhou, China and Germany Electronic Co., Ltd., Foshan City, China Electrical Lighting Co., Zhongshan Op lighting company limited by shares
The company, Zhongshan City, Liang Di Lighting Co., Ltd., Zhongshan City, were sent Lighting Appliance Co., Ltd. Zhongshan lighting products, energy 霍尼韦尔朗
Electrical Systems Technology (Guangdong) Co., Ltd.
The main drafters of this section. Wangyue Li, Yuan Qi, Wu Guoming, Lu Guangming, Malaysians, Yang Chi District, Zhou Mingxing, Xu made stone, Cheng Jingyuan,
Jiang Zhiqiang, Fu Baocheng, Cooper rights, Li Peihui, Huaqiao Sheng, Levi liters.
This part of the standard replaces the previous editions are.
--- GB 15143-1994;
--- GB 19510.4-2005.
GB 19510.4-2009/IEC 61347-2-3.2000
Introduction
This section and the various parts constituting the GB 19510.2 ~ GB 19510.14 regulation when referring to GB 19510.1-2009 any provision of
Set the terms and scope of the implementation of the order of the trial, but also provides the necessary additional requirements. GB 19510.2 ~ GB 19510.14
Each part is separate, and do not refer to each other.
If this section by "a section in accordance with GB 19510.1-2009 requires," this sentence to refer to the GB 19510.1-2009
A provision requirements, the meaning of this statement is in accordance with all the requirements of this provision, but obviously does not apply to GB 19510.2 ~
Except for the contents of the control device GB 19510.14 specific type of lamp.
GB 19510.4-2009/IEC 61347-2-3.2000
Part 4 of the control device lamp. fluorescent lamps
Particular requirements for ac supplied electronic ballasts
1 Scope
This section provides for the IEC 60081 and IEC 60901 fluorescent lamp and electronic ballast fluorescent lamps use other high-frequency characteristics
Specific requirements, such electronic ballast use 50Hz or 60Hz, 1000V ac power, but its operating frequency different from the power supply
frequency.
Particular requirements for electronic ballasts with thermal protector is given in Appendix C.
Particular requirements for emergency lighting AC/DC electronic ballasts are given in Appendix J.
Performance requirements are given in GB/T 15144 in.
2 Normative references
The following documents contain provisions which, through reference in this Part of GB 19510, constitute provisions of this part. For dated reference documents
Member, all subsequent amendments (not including errata content) or revisions do not apply to this section, however, encouraged to reach under this section
Parties to research agreement to use the latest versions of these documents. For undated reference documents, the latest versions apply to this
section.
This part of GB 19510.1-2009 Chapter 2 of the normative references and normative references the following documents.
Part 1 GB 19510.1-2009 lamp control apparatus. General and safety requirements (IEC 61347-1.2000, IDT)
Section 8 of the light control device GB 19510.8-2009. DC electronic ballasts for emergency lighting Particular requirements
(IEC 61347-2-7.2006, IDT)
GB 7000.2 Luminaires - Part 2-22. Particular requirements for emergency lighting (GB 7000.2-2008, IEC 60598-2-22.
2002, IDT)
3 Terms and Definitions
GB 19510.1-2009 established as well as the following terms and definitions apply to this section.
3.1
By the grid power supply and includes a stable exchange device - AC inverter, which typically starts and one or a few pieces at a high frequency
Fluorescent work.
3.2
In line with GB/T 15144-2009 8.1 predetermined lamp power (light output), except when related to the manufacturer or seller otherwise stated.
3.3
In the open state, as well as any normal operation and abnormal operating conditions allow the jumper on either the maximum allowable peak on an insulator
Voltage. The maximum peak voltage and the nominal operating voltage (rms) related to Table 1.
3.4
By the manufacturer or vendor-related claims, and in the 3.3 defined minimum percentage of lamp power.
3.5
By the grid or battery power and includes a stable devices AC/DC - AC inverter, it is generally in the high emergency lighting
GB 19510.4-2009/IEC 61347-2-3.2000
Frequencies and starting a fluorescent lamp or a few pieces of work.
3.6
Cathode replaced by IEC 60081 and IEC 60901 in the corresponding table lamp parameter specified by the manufacturer or the seller or a related statement
resistance.
4 General requirements
In accordance with the requirements of GB 19510.1-2009 Chapter 4, with the following additional requirements.
Emergency lighting AC/DC electronic ballasts should be in accordance with Appendix J requirements.
5 Test Description
In accordance with the requirements of GB 19510.1-2009 Chapter 5 as well as the following additional requirements.
Number of samples
The following number of samples shall be submitted to the test.
a) For Chapter 6 - Chapter 12 and Chapter 15 ~ Chapter 22 requirements of the test, submit a sample;
b) to Chapter 14 of the test requirements, submit a sample (if necessary in consultation with the manufacturer to request additional samples).
Test emergency lighting test the special requirements of the AC/DC electronic ballasts, under the conditions specified in Appendix J performed.
Category 6
In accordance with Chapter 6 GB 19510.1-2009 requirements.
7 logo
As a lamp ballast components do not have to make signs.
7.1 Mandatory Signs
Ballast (not including integral ballasts) shall be in accordance with the requirements of GB 19510.1-2009 7.2, clear durably marked with the following strong
System signs.
a) a GB 19510.1-2009 required 7.1), b), c), d), e), l) and k) of the content; and,
b) The applicable ground symbol;
c) For controllable ballasts, the control terminals shall be identified;
d) between the output terminals and applicable to any output terminal and the ground in accordance with the requirements of Chapter 12 of the maximum operating voltage (effective
Value) statement.
When the operating voltage is less than or equal to 500V, 10V should be made as a symbol; if the operating voltage is greater than 500V, should be
50V to make a mark, to make maximum operating voltage of the reference mark either case, the output maximum operating voltage between terminals and
Any output Maximum operating voltage terminal and ground. And only the two voltage values higher flagged.
It shall be U-OUT =... V...
7.2 Supplementary flag
In addition to these mandatory signs, if necessary, the following shall apply content mark on the ballast, or marked on the manufacturer's product catalog
Or similar specification.
--- GB 19510.1-2009 in 7.1 h), i) and j) content.
8 measures to prevent accidental contact with live parts
GB 19510.1-2009 accordance with the requirements of Chapter 10.
9 Terminals
GB 19510.1-2009 accordance with Chapter 8 requirements.
GB 19510.4-2009/IEC 61347-2-3.2000
10 protection grounding device
In accordance with the requirements of GB 19510.1-2009 Chapter 9.
11 Moisture resistance and insulation
GB 19510.1-2009 accordance with Chapter 11 and the following additional requirements.
Fluorescent contacted at high frequency operation with electronic ballast exchange may cause leakage current at this time should be measured in accordance with Annex I
The amount of the leakage current. The measured value shall not exceed the values shown in Figure 2, and the measurement value is a valid value.
Leakage current limit frequency of each frequency point shown in FIG. 2 according to the equation in the figure (still under consideration) is calculated.
NOTE. The above 50kHz frequency leakage current limit is still under consideration.
12 Dielectric strength
In accordance with the requirements of GB 19510.1-2009 Chapter 12.
Heat test 13 windings
GB 19510.1-2009 not in accordance with the requirements of Chapter 13.
14 Fault Status
GB 19510.1-2009 accordance with the requirements of Chapter 14.
15 protective measures associated member
15.1 In the access via analog cathode resistor verified normal operating conditions and under abnormal operating conditions specified in Chapter 16, the output terminal
The voltage at any time should not exceed the maximum allowable peak specified in Table 1.
Table 1 Relationship between operating voltage (RMS) and the maximum peak voltage
Voltage at the output/V
Working voltage (rms) maximum allowable peak voltage
Note. Allow the specified voltage interval between the implementation of straight-line interpolation.
15.2 Under normal operating conditions specified in Chapter 16 and under abnormal operating conditions (except rectifying effect), in power or started
After 5s, voltage at the output should not exceed the maximum operating voltage of the ballast declared.
15.3 under abnormal operating state rectifying effect, namely Chapter 16 d) under the ballast in power or started after the 30s,
Voltage at the output (RMS) should not exceed the required ballast design maximum allowable value.
For the duration of a failed attempt to start multiple lamp ballast, ballast marked maximum operating voltage than the total voltage
Inter should not exceed 30s.
15.1,15.2 and 15.4 to 15.3 of the test, the measured output voltage should be either a voltage output terminal and ground. this
In addition, in the case when the voltage is present between the associated part of the insulating spacers should measure the voltage between the output terminals.
15.5 For controllable electronic ballasts, the input control terminal should use at least basic insulation and power lines isolated.
NOTE. This requirement does not apply to the introduction of ballast control signal through the power supply terminal, it does not apply to be carried out by infrared or radio transmitters and remote transmitter
The control signal is completely isolated from ballast and ballast.
If you use a safety extra-low voltage, it should use double or reinforced insulation.
16 abnormal state
When the ballast is operating in an abnormal state rated supply voltage any voltage value between 90% and 110% under, should not be subject to security
Damage to the phenomenon.
GB 19510.4-2009/IEC 61347-2-3.2000
Compliance is checked by the following test.
In accordance with the ballast manufacturer's instructions (if specified, including fins) during work, applying the following various abnormal state, and each
Lasted 1h.
a) a lamp or lamps a few pieces not access;
b) a cathode lamp because damage can not start;
c) While the cathode line intact, but the lamp does not start (deactivation of lights);
d) operation of the lamp, but the cathode electrode is damaged, or deactivated (rectifying effect);
e) if the starter switch, short-circuit.
For analog deactivated state lamp operation test, using a resistor connected in place of each lamp cathode method. The resistance barrier
Value by the IEC 60081 and IEC 60901 in the corresponding parameter table lamp in the light of nominal operating current values are substituted into the formula (1)
inferred.
R = 11.02.1 × InΩ
(1)
Where.
In --- rated lamp current.
For the IEC 60081 and IEC 60901 are not related to the lamp, the current value of the work should be used by the manufacturer of the lamp given.
Rectifying effect test electronic ballasts, using circuit shown in Figure 1. The lamp connected to an intermediate point of a suitable equivalent resistance. Choose whole
The polarity of the flow tube, in order to provide the most adverse working conditions. If necessary, use a suitable starter to start the lamp.
At the end of making a) ~ e) during the test and the test, the ballast should not compromise the safety of the fault, nor any smoke generation.
Rectifier characteristics are as follows.
Peak reverse voltage URRM≥3000V
Reverse leakage current IR≤10μA
Forward Current IF≥ lamp three times the nominal operating current
(Maximum frequency. 150kHz) (measurement conditions. IF = 0.5A, and IR = 1A to IR = 0.25A)
a) Test circuit
NOTE. It is recommended to use the following types of diodes (three diodes in series) as a suitable rectifier. RGP30M, BYM96E, BYV16.
b) a diode recovery time
Figure 1 rectifying effect test
GB 19510.4-2009/IEC 61347-2-3.2000
a) the range of 10ms ~ 100ms
Figure 2 high-frequency fluorescent capacitive leakage current limits
GB 19510.4-2009/IEC 61347-2-3.2000
b) the range of 100ms ~ 1000ms
Figure 2 (cont.)
GB 19510.4-2009/IEC 61347-2-3.2000
c) the scope of 1000ms ~ 10000ms
Figure 2 (cont.)
GB 19510.4-2009/IEC 61347-2-3.2000
End-of-life status 17 lamp ballast
17.1 at the end of life of the lamp, ballast between 90% and 110% of rated supply voltage should not make any voltage over the cap
fever.
Effect on end-of-life simulation lamp test, the three provisions.
a) an asymmetric pulse test (17.2);
b) asymmetric power dissipation test (17.3);
c) Disconnect the filament test (17.4).
One can be used to prove any of the three trials, electronic ballasts eligibility. Ballast manufacturer shall be given in accordance with a special ballast
Set to decide the type of circuit should be used in three trials to test which of the ballast. Test methods shall be made in the selected ballast
Suppliers literature indicated.
NOTE. The ability to overcome local reference ballast rectification to correct the ballast method recommended by the GB 18774-2002 and GB 16843- Appendix E
2008 Appendix H is given.
Ballast test circuit used in the lamp should have been 100h Burn new lamp.
17.2 Asymmetric pulse test
The ballast should have adequate safeguards to prevent the cap at the end of the life cycle of the lamp excessive heat. Compliance is checked by the following test
Tested.
When the test cathode using the following maximum power value Pmax.
--- For 13mm (T4) lamps, Pmax = 5.0W;
--- For 16mm (T5) lamp, Pmax = 7.5W.
(Other diameters are still being studied.)
Test Procedure
Referring to Figure 3 a diagram in Fig.
If the ballast and/or lamp is only one electrode is connected to the effective application of T1 should be removed, and then connect one end ballast
On J2, will light one end connected to J4. Manufacturers of ballast must be clear which end is connected to the output terminal J4, and
In the presence of two output terminals of each electrode situation, whether they can be short-circuited or connected across a resistor.
1) closing switches S1 and S4, and the switch S2 to position A.
2) Turn on the power test ballast, lamp work and continue 5min.
3) closed S3, disconnect S1, wait 15s, disconnect S4 wait 15s.
4) measuring the power resistors R1A-R1C and R2A and R2B and a zener diode D5 and D8 average power consumption
sum.
Note. The measured power shall be the average having a voltage terminal J5 and J6 between the generated voltage to this J7 and J8 to a current phase
Cause. Using a differential voltage probe should be measuring the voltage, and should use the probe to measure DC current. Can be used to zoom in and have averaged
Function digital oscilloscope. If the ballast operates in a cyclic manner, the average interval should be adjusted to contain integral number of cycles (each cycle
Should be more than 1s). Sampling ratio and the number of samples included in the calculation should be sufficient to avoid aliasing errors.
Cathode power loss should be less than the maximum power (Pmax).
If the power loss is greater than the maximum cathode power (Pmax), the ballast failure of the test, the test should be interrupted.
5) close S1 and S4.
6) The S2 is adjusted to position B.
7) Repeat steps 2), 3) and 4).
Ballast in position "A" and the position "B" should be adopted at the test.
8) The multi-lamp ballast, repeating a) to 7 at each position of the lamp). Multi-lamp ballast shall pass only light at each position
Tests carried out.
GB 19510.4-2009/IEC 61347-2-3.2000
9) allows for multiple types of light (e.g.. 26W, 32W, 42W) of the ballast working, specified in response to each type of lamp
experimenting. For each type of lamp is repeated a) Test 1-8) step.
Asymmetric pulse test circuit of Figure 3
NOTE. The switch S4 is closed, so that the field effect transistor Q1 power 3ms, then disconnect 3ms; S4 will be turned OFF, the field effect transistor power homes
27ms, then disconnect 3ms.
Bill of materials and transformer specifications given in Appendix K of. Allows the use of any other functionally equivalent transformer.
17.3 Asymmetric power test
The ballast should have adequate protection to prevent lamp light at the end of the life cycle of excessive heat. Compliance is checked by the following
Experimental testing.
The following test uses a cathode maximum power value Pmax.
--- For 13mm (T4) lamps, Pmax = 5.0W;
--- For 16mm (T5) lamp, Pmax = 7.5W.
(Other diameters are still being studied.)
Test Procedure
Schematic shown in Figure 4.
1) the switch S1 is adjusted to position A.
2) the resistance of the resistor R1 is adjusted to zero.
GB 19510.4-2009/IEC 61347-2-3.2000
3) The test ballast lamp power is turned on to start and make light work and continued 5min.
4) (in the 15s) rapidly rises the resistance of the resistor R1, the resistor R1 to the degree that the power consumed by the lamp is equal to T4 test
Test power 10W, or equal to T5 lamp experiment power 15W. If the test before reaching the ballast power is turned off, to
According to 5) requirements to continue testing. If the ballast is not disconnected, and the resistor R1 is smaller than a power limit for the test
Limit value of the power adjusting resistor R1, to reach the maximum value to produce power.
5) If the test power value reaches the first 4) requires step, and then wait 15s. If the test does not reach the power value 4) requirements, then wait
30s. Power measurement resistor R1.
Power loss of the resistor R1 is less than or equal maximum cathode power Pmax. If the resistor R1 is larger than the female power lo...
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