DE102005028418A1 - Electronic ballast for operating low pressure discharge lamp has lamp connection attached to alternating current output side which is galvanically separated from alternating current output of converter by means of isolation capacitor - Google Patents

Abstract

Electronic ballast has alternating current output side (M) lamp connection (KL1) which is galvanically separated from alternating current output of converter (S1,S2) by means of isolation capacitor (C1). Lamp connection (KL2) is attached to one of the supply unit potentials (N,P) of the converter is galvanically separated from the supply unit potential by means of an isolation capacitor (C2). The converter and the low pressure discharge lamp (LA) are coupled in alternating current manner. Independent claims are also included for the following: (A) Kit of an electronic ballast; and (B) Method for operation electronic ballast.

Description

technical area

The The present invention relates to an electronic ballast with a Transducer and lamp connections for operating a low-pressure discharge lamp.

electronic ballasts for the operation of low-pressure discharge lamps are available in many designs known. Usually they contain a transducer, which is the low-pressure discharge lamp operates. in principle generates a converter from a rectified AC power supply or a DC power supply for the with high-frequency current to be operated lamp.

One Converter can be realized as a half-bridge circuit be. There are two opposing high-frequency switching in series switched switching elements connected to a DC power supply. Between one of the supply potentials of the converter and the connection node between the switching elements of the converter is a high-frequency, to supply the low-pressure discharge lamp usable AC voltage as output voltage.

Usually lie lamp connections, over which the low-pressure discharge lamp to the converter or the electronic Ballast connected is between the AC output of the converter and one of the Supply potentials of the converter.

presentation the invention

Of the Invention is based on the technical problem, in terms of safety improved electronic ballast for low pressure discharge lamps specify.

The The invention relates to an electronic ballast for operation a low-pressure discharge lamp with a converter, which is a switching element and having an AC output to the AC power supply of the low-pressure discharge lamp, and lamp terminals, over the the low-pressure discharge lamp between the AC output and one of the supply potentials of the converter are switched can, characterized in that the AC output side Lamp connection by means of a separation capacitor from the AC output the transformer is galvanically isolated and the one to the supply potentials the lamp terminal connected by means of a separation capacitor is electrically isolated from this supply potential, so that the converter and the low-pressure discharge lamp are AC coupled are.

preferred Embodiments of the invention are specified in the dependent claims and will be closer in the following explained. The disclosure always refers to both the process category, as well as the device category of the invention.

The Invention is based on the finding that low-pressure discharge lamps via high-frequency AC can be operated and so that no DC component must be present. It follows, that respect the operation of the low-pressure discharge lamp, the lamp terminals galvanic - Gleichstrommäßig - from the converter can be separated.

at The invention relates to the AC output side lamp terminal by means of a separation capacitor from the AC output of the Converter isolated. Also the supply potential side Lamp connection is by means of another separation capacitor electrically isolated from the corresponding supply potential. This is a low-pressure discharge lamp connected to the lamp terminals only with alternating current coupled to the transducer. Thanks to the galvanic decoupling of the lamp connections of the converter are the time averaged lamp connection potentials no longer determined by the time averaged potentials in the converter.

So Is it possible, that possibly existing large Potential differences between parts of the electronic ballast and the ground potential does not abut the lamp terminals. Although the lamp connections of the transformer are galvanically isolated, occur during operation of a low-pressure discharge lamp Furthermore, no large static Charges at the lamp terminals, because these static charges are due to the flow of current through the lamp be compensated. Thus, the touch safety is improved.

Preferably, at least one of the lamp terminals, possibly via a resistor, connected to a definition potential. The definition potential determines the time-averaged potential at the lamp terminals. As a result of the alternating current operation of the low-pressure discharge lamp, the time-averaged potentials at the two lamp terminals are equalized and can so accept the same value. Therefore, during operation of a low-pressure discharge lamp, it does not matter to which lamp terminal the definition potential is connected. By means of the definition potential, the temporally averaged potential at the lamp terminals can thus be set.

It are different ways define the definition potential. In a preferred embodiment The invention is between the two supply potential lines of the converter connected a series circuit of two high-impedance resistors. The potential at the connection node between these two resistors forms the Definition potential. The voltage divider has high-resistance resistors, so that he does not have a low-impedance current path between the supply potentials represents the converter. With this voltage divider circuit can the definition potential, depending on the dimensioning of the two resistors, values between the values of the two supply potentials of the converter accept.

The Reference potential of an electronic ballast is in many designs not identical with the earth potential; it can across from this one both a temporally variable, as well as have a constant potential difference. The time variable Proportion of the potential difference is characterized by the rectification and filtering the mains supply and ballast internal switching operations. Of the time constant proportion of the potential difference between the Reference potential of the electronic ballast and the ground potential can also considerable be. By means of the voltage divider described above, the definition potential be adjusted in the time average so that the lamp connection potential approximately equal in time to the earth potential. With reduced average voltage between the lamp terminals and the ground potential the touch safety improved.

at an alternative preferred embodiment of the invention as the definition potential, the ground potential itself chosen. there is one of the two lamp terminals high impedance to the ground potential connected.

at a further preferred embodiment According to the invention, both lamp terminals are connected to the definition potential connected, that the two lamp connections are connected high impedance are. Due to the fact that both lamp connections to the definition potential are connected, the same potential is at both lamp terminals even if no low-pressure discharge lamp is connected, or such is not in operation.

Preferably the definition potential is set so that the mean time Potential of the lamp connections corresponds approximately to the earth potential. This is the touch safety at the lamp connections improved.

Short description the drawings

in the Below, the invention will be explained in more detail with reference to embodiments. The individual features disclosed can also be used in other combinations be essential to the invention. The above and following description refer to the device category and the process category of the invention, although this is not explicitly mentioned in detail yet.

1 shows a part of the circuit structure of a first electronic ballast according to the invention.

2 shows a part of the circuit structure of a second electronic ballast according to the invention.

3 shows a part of the circuit structure of a third electronic ballast according to the invention.

preferred execution the invention

1 shows a part of the circuit structure of a first electronic ballast according to the invention.

Between two supply potentials N, P are two half-bridge forming switching elements S1 and S2, for example MOSFETs, connected in series. The connection node between the two switching elements S1 and S2 corresponds to an AC output M. Between the alternating current output M and the supply potential N of the converter lamp terminals KL1 and KL2 are connected. At the lamp terminals KL1 and KL2 a low-pressure discharge lamp LA is connected. Parallel to this lamp LA, a resonance capacitor CR is connected. The AC output-side lamp terminal KL1 is preceded by a separation capacitor C1, and the supply potential-side terminal KL2 is followed by a separation capacitor C2. Between the AC output M and the separation capacitor C1, a lamp inductor L1 is connected. Parallel to the switching elements S1 and S2 of the converter is connected to the supply potentials N and P voltage divider circuit of two resistors R1 and R2. The connection node between these two resistors R1 and R2 sets a definition potential DP. The definition potential DP is with the lamp terminal KL1, possibly via a resistor, not shown here, connected.

The Reference potential N of an electronic ballast can across from the ground potential GND have a time-average potential difference, especially in electronic ballasts of protection class II, which not over one own ground connection GND.

through the two separation capacitors C1 and C2 are the lamp terminals KL1 and KL2 galvanically isolated from the converter S1, S2. The time averaged potential of the lamp terminals is above the definition potential DP set. The two resistors R1 and R2 of the voltage divider are designed very high impedance, so no current from the voltage divider to the lamp terminals KL1, KL2 flows. Depending on the dimensions of the two resistors R1 and R2, the definition potential DP values, which between the supply potential N and the supply potential P of the converter S1, S2 are. The definition potential DP is over the dimensioning of the resistors R1, R2 adjusted so that the potential difference between the lamp terminals and the ground potential GND possible is small, or this corresponds to the time average.

2 shows a part of the circuit structure of a second electronic ballast according to the invention.

As in 1 here is a series circuit of the lamp inductor L1, the separation capacitor C1, the lamp terminals KL1 and KL2 of the low-pressure discharge lamp LA and the separation capacitor C2 before. As in 1 the lamp LA is connected in parallel with the resonance capacitor CR. Unlike in 1 However, the lamp terminals KL1, KL2 are both connected to the definition potential DP, but so that parallel to the lamp LA only a high-impedance current path is formed. In 2 a corresponding resistor R3 is located. Through this in 2 shown circuitry, the potentials of the lamp terminals are determined by the definition potential DP even if no lamp is connected, or the lamp LA is not in operation. Thus, the touch safety is improved.

3 shows a third embodiment according to the invention, again the series circuit of the lamp inductor L1, the separation capacitor C1, the two lamp terminals KL1, KL2 with the low-pressure discharge lamp LA and the separation capacitor C2. Parallel to the lamp LA, the resonance capacitor CR is switched again. Unlike in the 1 and 2 Now, however, the definition potential DP is not determined via the voltage divider R1, R2, but one of the lamp terminals KL1, KL2 is connected to a high impedance via a resistor R4 to the ground potential GND. Thus, the ground potential GND here corresponds to the definition potential DP.

Claims (9)

Electronic ballast for operating a low-pressure discharge lamp (LA) comprising: a converter (S1, S2) having a switching element (S1, S2) and an AC output (M) for AC supply of the low-pressure discharge lamp (LA), and • lamp terminals (KL1, KL2 ), via which the low-pressure discharge lamp (LA) can be switched between the AC output (M) and one of the supply potentials (N, P) of the converter, characterized in that the AC output side (M) lamp terminal (KL1) by means of a separation capacitor (C1) of the AC output (M) of the converter (S1, S2) is electrically isolated and the one of the supply potentials (N, P) of the converter connected lamp terminal (KL2) by means of a separation capacitor (C2) of this supply potential (N, P) galvanically isolated is such that the converter (S1, S2) and the low-pressure discharge lamp (LA) are AC coupled. An electronic ballast according to claim 1, wherein at least one of the lamp terminals (KL1, KL2) to a definition potential (DP, GND) for defining the lamp connection potentials (KL1, KL2) is connected. Electronic ballast according to claim 2, wherein the definition potential (DP, GND) via a voltage divider (R1, R2) is fixed, which between the supply potential lines (N, P) of the converter (S1, S2) is connected. Electronic ballast according to claim 2, wherein at least one of the lamp terminals (KL1, KL2) high impedance (R4) with the ground potential (GND) as the definition potential (DP) is connected. Electronic ballast according to claim 2, 3 or 4, at the both lamp connections (KL1, KL2) are connected to the definition potential (DP, GND) are that the two lamp connections (KL1, KL2) high impedance (R3) connected to each other. Electronic ballast according to one of the preceding claims, in which the definition potential (DP) is set such that the mean time potential of the lamp terminals (KL1, KL2) corresponds approximately to the ground potential (GND), so that the Touch safety of the electronic ballast is increased. Set of one electronic ballast after one of the preceding claims and a low pressure discharge lamp suitable for operation with this ballast (LA). Method for operating an electronic ballast with a low-pressure discharge lamp (LA), in which • a converter (S1, S2) having a switching element (S1, S2) and an AC output (M), the low-pressure discharge lamp (LA) with alternating current supplied and • the Low - pressure discharge lamp (LA) at lamp connections (KL1, KL2) between the AC output (M) and one of the supply potentials (N, P) of the converter is connected, characterized in that of the AC output side (M) lamp terminal (KL1) by means of a Separation capacitor (C1) from the AC output (M) of the converter (S1, S2) is galvanically isolated and to one of the supply potentials (N, P) of the converter connected lamp terminal (KL2) means a series-connected separation capacitor (C2) of this Supply potential (N, P) is galvanically isolated, so that the Coupling the converter (S1, S2) and the low-pressure discharge lamp (LA) AC-responsive. Method according to claim 8 using a ballast according to one of the claims 1 to 6 or a set of an electronic ballast and a Low-pressure discharge lamp according to Claim 7.