VACS:Projects:Hardware:LPS:RegulatorBoard
Status | |
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Schema finished | |
Validated the schema | |
Validated the board layout | |
Board manufactured | |
Board finished | |
Board tested |
Contents |
Description
The power supply regulator is responsible for regulating the voltage of the output power supply. It is composed of two boards, one that integrates the voltage regulator for 2 power supplies and another board that contains the output power transistor and last stage filter.
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 that drives the output darlington transistor Q3. The output voltage will then be reduced thus switching off Q3 and reducing the output current.For version 1.7, I added a resistor to the ground on the NPN base transistor Q1. This guaranttes that we see some minimal current (above 60uA) from the output collector of Q2. The resistor also eliminates the charges stored in Q1 base.
Output Load
The output load is intended to create a variable resistive charge on the outputs. This charge is used to dump the output capacitors. The variable resistive charge is composed of a small power resistor and a medium power transistor that drives the current on the resistor. The operational amplifier maintains arround the resistor a voltage V2 that represents a fraction of the voltage V1 (0.3125). The input voltage V1 is in the range 0..5V and the voltage V2 is in the range 0..1.56V.
Voltage Regulation
The voltage regulation is made using a comparator which receives a control voltage in the range 0..+5V and a fraction of the output voltage.
Schematics
Positive Voltage Regulator
Positive Output Transistors
Connectors
The voltage regulator board is plugged in the power supply output transistor board through a specific connector OUTPUT_DRIVER. The connector provides the reference ground and the output voltage senses but these signals are only provided if the VSENSE connector is not plugged (hardware security measure).
OUTPUT_DRIVER | ||||
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1 | VBASE2 | Output transistor base driver | Power supply 2 | |
2 | IBASE2 | Load current transistor base driver | ||
3 | VOUT2 | Output voltage sense | ||
4 | IDRAIN2 | Load drain feedback | ||
5 | GND | |||
6 | GND | |||
7 | VBASE1 | Output transistor base driver | Power supply 1 | |
8 | IDRAIN1 | Load drain feedback | ||
9 | VOUT1 | Output voltage sense | ||
10 | IBASE1 | Load current transistor base driver |
VSENSE | ||||
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1 | VO1 | Output voltage sense | Power supply 1 | |
1 | GNDREF | Ground reference | ||
1 | VO2 | Output voltage sense | Power supply 2 |
VCONTROL | ||||
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1 | VREF1 | Reference voltage | Power supply 1 | |
2 | VMEAS1 | Output voltage measurement | ||
3 | ILOAD1 | Output load control | ||
4 | GNDREF | Reference ground | ||
5 | ILOAD2 | Output load control | Power supply 2 | |
6 | VMEAS2 | Output voltage measurement | ||
7 | VREF2 | Reference voltage |
ALIM | |||
---|---|---|---|
1 | +24 | AOP Positive voltage | |
2 | NC | ||
3 | "-5 | AOP Negative voltage |
PCB
Positive Output Transistors
The positive output transistors board is Xmm x Ymm wide with a 70um copper side. It contains the TO3 output transistors and the board is mounted on the heat sink. On the heat sink the TO3 transistors are rotated by 220 degree. The two NPN load transistors are also on the heat sink but not on the board. Their placement is not really good but they will not really be soldered there: cables will be used.
Signal class | Width | Clearance | Drill |
---|---|---|---|
GND | 3mm | 0.5mm | 1mm |
Supply | 3mm | 0.5mm | 1mm |
Signal | 0.6mm | 0.5mm | 0.6mm |
Others | 0.8mm | 0.5mm | 0.8mm |
For the auto-routing, the clearance was set to 0.3 and 0.4mm. It was increased to 0.5mm which corresponds more or less to the maximum for this board. The GND and other polygons have been drawn at the end because the auto-router fails to route those signals if a polygon exits.
Positive Regulator
The positive regulator placement board is 81mm x 39mm wide on a single sided 35um board. The connector is used to plug it on the positive output transistor board.
Signal class | Width | Clearance | Drill |
---|---|---|---|
Supply | 0.8mm | 0.4mm | 0.8mm |
Signal and others | 0.4mm | 0.4mm | 0.8mm |
Datasheets
Below is a collection of datasheets, white papers and articles related to the parts used in the board.
Resistors
Capacitors
- [SOLID POLYMER ALUMINUM CAPACITOR CHIPS IN DC-DC CONVERTER MODULES REDUCE COST AND SIZE AND IMPROVE HIGH-FREQUENCY PERFORMANCE ]
- [CONDUCTIVE POLYMER ALUMINUM SOLID ELECTROLYTIC CAPACITORS ]
- [Electrolytic Capacitor Guide ]
- [EPCOS Electrolytic Aluminium Capacitor (4700uF/40V) ]
Semiconductors
- [TL074 operational amplifiers ]
- [BC237 NPN Epitaxial Transistor ]
- [BC557 PNP Epitaxial Transistor ]
- [BD139 NPN Transistor ]
- [BD140 PNP Transistor ]
- [MJ11015.pdf PNP Silicon Darlington Transistor ]
- [MJ11016.pdf NPN Silicon Darlington Transistor ]
Others
- [PCB Layout Guidelines for Power Controllers (Texas Instrument) ]
- [Molex Connectors ]
- [Molex Connectors ]
Changes
Power Supply Output Transistors | ||
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1.7 | 2007-07-22 |
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1.6 | 2007-05-07 |
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1.5 | 2007-01-20 |
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Voltage Regulator | ||
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1.4 | 2007-05-07 |
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1.3 | 2006-12-27 |
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