VACS:Projects:Hardware:LPS:RegulatorBoard
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==Output Current Protection== | ==Output Current Protection== | ||
− | [[Image:lps_output_current_protection_study.png|thumb|384px|left|Output Current Protection]]The system has in fact two output current protections. One in the [VACS:Projects:Hardware:LPS:ControllerBoard power supplt controller board] and another one in the voltage regulator board. The first protection has an impact on the voltage reference that drives the regulator board. The second protection is more traditional. A resistor R2 combined with a switch as expained in the [VACS:Projects:Hardware:LPS:RectifierBoard Rectifier board] are used to measure the output current. The limiting protection consists of the two transistors Q1 and Q2. The PNP transistor Q2 is activated when the current through R2 is above the 1.3V limit. When this happens a current flows in the NPN transistor Q1 which turns it on. This draws all the current from the operational amplifier which drives the output darlington transistor Q3. The output voltage will then be reduced thus switching off Q3 and reducing the output current. | + | [[Image:lps_output_current_protection_study.png|thumb|384px|left|Output Current Protection]]The system has in fact two output current protections. One in the [[VACS:Projects:Hardware:LPS:ControllerBoard|power supplt controller board]] and another one in the voltage regulator board. The first protection has an impact on the voltage reference that drives the regulator board. The second protection is more traditional. A resistor R2 combined with a switch as expained in the [[VACS:Projects:Hardware:LPS:RectifierBoard| Rectifier board]] are used to measure the output current. The limiting protection consists of the two transistors Q1 and Q2. The PNP transistor Q2 is activated when the current through R2 is above the 1.3V limit. When this happens a current flows in the NPN transistor Q1 which turns it on. This draws all the current from the operational amplifier which drives the output darlington transistor Q3. The output voltage will then be reduced thus switching off Q3 and reducing the output current. |
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Revision as of 02:22, 21 January 2007
Output Current Protection
The system has in fact two output current protections. One in the power supplt controller board and another one in the voltage regulator board. The first protection has an impact on the voltage reference that drives the regulator board. The second protection is more traditional. A resistor R2 combined with a switch as expained in the Rectifier board are used to measure the output current. The limiting protection consists of the two transistors Q1 and Q2. The PNP transistor Q2 is activated when the current through R2 is above the 1.3V limit. When this happens a current flows in the NPN transistor Q1 which turns it on. This draws all the current from the operational amplifier which drives the output darlington transistor Q3. The output voltage will then be reduced thus switching off Q3 and reducing the output current.