Integrated fault protection for switched electronic systems...

Electric lamp and discharge devices: systems – With automatic shunt and/or cutout – Supply circuit current and/or potential actuated switch

Reexamination Certificate

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C361S063000

Reexamination Certificate

active

06441556

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to fault protection, and more specifically to integrated fault protection for switched electronic systems for satellite applications.
BACKGROUND OF THE INVENTION
In spacecraft systems, power is distributed from power sources (i.e. batteries, solar cells, fuel cells, etc.) to each subsystem using power control electronics. The power control electronics consist typically of combinations of relays, solid state switches, power converters and a computer to manage spacecraft power resources and load control. This solution represents a large cost to the satellite manufacturer, since the power distribution system must be customized for each electronic subsystem in terms of load management (control as well as amperage). The satellite manufacturer has to consider power generation, power control and bus loading to minimize power consumption.
With emphasis towards lower cost and standardization, the power control and protection elements are being pushed from the satellite bus distribution system to the electronic subsystem level. While this results in a simpler satellite power bus system, an additional level of complexity is consequently added to the subsystem design, requiring the subsystem to perform the load management control (switching ON/OFF) and to protect the bus from internal subsystem failures. These functions are often implemented using relays or solid state switches for load management and current limiters to protect the satellite bus from failures. Often electronic subsystems also contain a power converter to provide for various voltages required by the electronics and to maintain bus isolation. These functions are implemented using standard circuits readily known by those practicing in the art of electronic design.
In conventional systems, the power converter and bus protection circuits are treated as separate functions. Typical bus protection circuit elements consist of a power switching relay to provide for load management and offer total isolation in the OFF mode to minimize power consumption. Typically, a latching relay is used to allow system control with pulsed commands applied to the relay coils. This is done to minimize the amount of control power required and to simplify the system control.
Current limiting circuitry is also employed after the relay to limit bus currents when power is applied. This protects the relay contacts and the power bus from high current spikes that would be incurred as the bus voltage charges various capacitors and filters in the subsystem electronics.
In addition to limiting inrush currents, fault current protection is required to protect the power bus in the advent of a subsystem component failure resulting in a short circuit condition. The loss of the power bus could render the operation of the satellite useless and result in a large financial loss, considering the costs of the satellite as well as the launch vehicle. Typically, the inrush and fault current limiting is implemented with solid state switches and power control electronics to sense currents and voltages and control the bus current levels to a safe value.
In the prior art, the bus protection, power control and local voltage regulation are typically constructed as separate circuit elements, thus adding complexity and cost to the subsystem. A block diagram illustrating the prior art concept is displayed in
FIG. 1
depicting the series combination of a power relay
1
, a current limit circuit
9
, a voltage regulation or power converter
7
and current sensing circuitry
6
.
Therefore a need exists for a cost effective apparatus and method to integrate the power converter with the bus protection circuitry, to thereby realize the required load management and protection without undue complexity at the subsystem level. opens (OFF) and power is supplied to power converter
7
via power bus
11
and diode
8
b.
The start switch then remains OFF until the power is recycled (OFF/ON) at relay
1
, at which time the startup procedure is repeated.
Meanwhile, a fault current detector
5
monitors a current sense circuit
6
continually to detect faults in the subsystem. A fault is detected when an out of range current is detected on the return path
11
a
of switched bus
11
. The fault may be a result of, for example, a subsystem component failing and consequently causing a short circuit on the power bus. In such a case the current in the return path
11
a
would increase, with the increase being detected by the fault current detector
5
via the current sense circuit
6
.
When a fault is detected by the fault current detector
5
, the power converter
7
is effectively shut down by the fault current detector
5
. The drive power is consequently removed from fault switch
2
, thereby opening fault switch
2
and disconnecting the fault from the relay
1
and input power bus
12
. Accordingly, relay
1
and input power bus
12
are protected from high fault currents. An optional status output
13
of the fault current detector
5
may be monitored to provide fault status.
The circuit of
FIG. 2
also provides fail safe operation with respect to converter failure. That is, an operational failure of the power converter
7
will automatically remove the drive power from fault switch
2
, thereby removing power from the switched bus
11
. Accordingly, further protection is provided, since a possible failure mode, in which the power convert
7
no longer provides current to the subsystem electronics while the switched bus is still powered and not isolated, is prevented.
The circuit of
FIG. 2
may also be used to protect relay
1
and input power bus
12
from high fault back currents that could flow out of the subsystem as a result of a short circuit on the input power bus
12
. Back current may, for example, result when the subsystem in a motor type load generates back EMF when the input bus
12
is shorted. To provide this additional protection, fault switch
2
is comprised of two back-to-back switches driven independently by the power converter
7
. Here, it should be noted that opening a switch, or placing it in an OFF state, may refer to applying a high impedance in one direction only. This is typically accomplished using commonly known transistor related technologies, such as FETS, CMOS, JFET, MOSFET, bipolar transistors, etc. Accordingly, to obtain bi-directional fault protection, two such switches in series oriented opposingly may be used. The power converter
7
controls each switch independently according to the direction of flow of the fault current. The fault current detector
5
and current sense circuit
6
are configured to sense bidirectional fault currents.
In addition, the bi-directional fault protection circuit may be configured to manage an AC subsystem with minor modifications which could be readily performed by one having ordinary skill in the art.
Accordingly, the integrated fault protection circuit of the present invention provides bus protection and power in one integrated circuit package, thus reducing the cost and complexity of performing these functions.


REFERENCES:
patent: 5416689 (1995-05-01), Silverstein et al.
patent: 5617012 (1997-04-01), Murakami
patent: 5708576 (1998-01-01), Jones et al.
patent: 5767631 (1998-06-01), Konopka et al.
patent: 5973896 (1999-10-01), Hirsh et al.
patent: 8-30340 (1996-02-01), None

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