Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
2000-12-13
2002-02-05
Sircus, Brian (Department: 2839)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C439S092000
Reexamination Certificate
active
06344972
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to electronic equipment, in particular electronic equipment for use in the railroad art for controlling electrical power machines. The electronic equipment concerned consists mainly of circuits mounted on electronic cards, printed circuits, and including discrete circuits such as control integrated circuits, microprocessors, FPGA circuits, auto-couplers, transformers, capacitors or other circuits interconnected by electrical connections. The object of the invention is to simplify maintenance of the electronic equipment whilst complying with safety standards intended to protect operatives manipulating the electronic equipment or installations in which the electronic equipment is installed.
2. Description of the Prior Art
In the field of electronic equipment, and in particular the field of electronic equipment controlling power electronics, parts of the circuit are frequently made electrically independent of each other. Signals are then transmitted between the independent parts by inductive or optical coupling or even by radio transmission and reception. The independence of the circuits causes common mode currents to flow through potential barrier stray capacitances. The common mode currents can induce potentials in the electronic circuits which fluctuate in time and are interpreted as control signals. This disrupts the operation of the electronic equipment and the equipment malfunctions.
To remedy the above problems, and to limit the common mode currents, the circuits are screened, in particular provided with an electrical ground which is connected to the ground of a chassis, and an internal potential of the electronics, for example a zero volt connection of the electronics, is connected to the resulting ground at a location such that common mode currents collected in this way are evacuated without causing problems to the electronics. Thus in the railroad art the chassis concerned is electrically connected to a boiler of a railroad vehicle, for example a locomotive, which is also connected electrically to the rails on which the train travels. The rails are in turn connected to the ground on which they are laid by grounding terminals which are provided from place to place, via railroad ties which are generally insulative and poor conductors, being made of wood or concrete. If such precautions are not taken, fluctuating potential differences between the electronic circuit and the chassis connected to ground can cause high breakdown voltages. The high voltages can cause breakdowns in the integrated circuits of the electronic equipment, for example, or of the insulation. Independently of these common mode current and breakdown problems, there is a real danger to personnel having to manipulate the equipment. French standard NFC 15 100, which is concerned with the safety of persons, specifies that the voltage between any two points that a person can touch must not exceed 48 volts, for example.
An electrical connection between a zero volt circuit of a subsystem of electronic equipment and the ground of a chassis of the complete equipment is therefore necessary for reasons of electromagnetic compatibility. It is therefore also useful for reasons connected with the safety of persons likely to be in contact with bare metal parts of the subsystem or the complete equipment.
In the prior art the connection is provided by a wire which is connected to one terminal of a connector of the electronic equipment of the system. An installer, a system integrator, is responsible for integrating the equipment into the railroad vehicle and connects the screening of the equipment to the local ground.
The inventors have realized that the zero volt connection of the electronic equipment to the chassis ground of the complete equipment via the connector prevents production and system integration dielectric tests. These tests are carried out by the system integrator. Removability is obtained by providing a second connector, which in a preferred embodiment includes a removable bolt, to provide the zero volt connection of the electronic equipment to the chassis of the complete equipment, and this solves all the problems. Removability enables optimum design of the electrical connection at the level of designing the electronic equipment, rather than at the level of designing the complete equipment. In the prior art, electromagnetic compatibility of the complete equipment was achieved subject only to a given implementation of the connections by the equipment installer. Using a bolt, as in the invention, the equipment installer is prevented from making the electrical connections other than in accordance with the design of the circuit.
Over and above the bolt, which is the preferred form of connection because it is removable, simple and effective, the invention relates to defining the location for a second ground connector at the stage of designing the electronic equipment. That location is then chosen to improve electromagnetic compatibility, independently of the location chosen for a functional connector. It is then much more likely that an ideal implementation developed in the laboratory can be achieved on-site. Laboratory development can therefore minimize the impedance of the electrical connection for improved electromagnetic compatibility. The fact that the bolt can be removed improves access to the electrical connection and reduces its disconnection/reconnection time during dielectric tests. Finally, because fitting a bolt, as in the preferred embodiment, is so simple, it becomes feasible to provide several electrical connection locations independent of the position of the functional connections of the electronic equipment, so that the resultant impedance is reduced by the parallel connection of several zero volt electrical connections to the chassis ground, as close as possible to the functions to be protected from interference.
The various constraints referred to also indicate that it has been difficult to test the function of electronic equipment independently of its ground connection environment, since by definition a ground connection environment has been imposed. The constancy of these connections prevented effective verification that some parts of the electronic equipment are sufficiently insulated from the electrical ground of the chassis receiving the equipment. In particular, electronic equipment includes zero volt connections whose potential lies between relatively lower voltages (for example negative voltages) and relatively higher voltages (positive voltages). When the equipment is installed in the system, these zero volt connections must be connected to the ground of the chassis of the system.
During verification of the electronic equipment, insulation tests on the zero volt connections to ground and to the chassis of the electronic equipment are carried out using ohmmeters and dielectric measuring sets. The measured impedance must normally be greater than several megohms and the breakdown voltages greater than several hundred volts. What is more, the impedances are also measured with alternating currents to measure the reactances, which must be as low as possible to evacuate common mode currents and limit common mode voltages.
In accordance with the invention, to remedy the problems arising from the above constraints and the above mode of verifying the electronic equipment, there is further provision for making a zero volt connection and a ground connection to the electronic equipment. The two connections are independent of each other on the electronic equipment. As the two connections must be used, there is then provision for them to be connected together via the ground of a chassis on which the electronic equipment is mounted. In this way, once installed, the electronic equipment satisfies all constraints, in particular those imposed by the standard. It also satisfies the best operating conditions, those in which the zero volt is connected to the electrical ground (via the ground of the chassis). Finally, whe
Estieule Bruno
Luscher Patrick
Maillard Daniel
Robin Michel-André
Alstom
Le Thanh-Tam
Sircus Brian
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