Use of PTC devices

US 5,645,746 A
Filed: 11/30/1995
Issued: 07/08/1997
Est. Priority Date: 08/23/1993
Status: Expired due to Term

First Claim

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1. An electrical system which is installed in a road vehicle, an airplane, or a ship, and which comprises(1) a source of electrical power;

(2) a supply connection means which is electrically connected to a first pole of the power source, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a return connection means which is electrically connected to a second pole of the power source; and

(4) a plurality of branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, at least two of the branch circuits being PTC-protected branch circuits, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit, and(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK ;

(b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and

(c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;

whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the power source by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC device to trip and reduce the current to a steady state value substantially below I_TRIP ;

wherein at least one of the following conditions is fulfilled;

(A) in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and

80°

C. the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between -40°

C. and 85°

C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD,where I_LOAD is the maximum steady state current in that PTC-protected branch circuit under normal operating conditions;

(B) in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and

80°

C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit and(ii) at at least one temperature between -40° and

85°

C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit;

(C) the total number of PTC-protected branch circuits is p, and at all temperatures between 0° and

80°

C., in q of the PTC-protected branch circuits, where q is at least 0.1 p, the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is equal to or lower than I₂₂, where I₂₂ is the I_DAMAGE of PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG);

or(D) some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE equal to or less than I₂₂, and some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE greater than I₂₂, where I₂₂ is the I_DAMAGE of a PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG), and at all temperatures between 0° and

80°

C., the total length of the PTC-protected branch connection means having an I_DAMAGE greater than I₂₂ is not more than x times the total length of the PTC-protected branch connection means in which I_DAMAGE is equal to or less than I₂₂, where x is 10.

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Abstract

Use of PTC circuit protection devices in motor vehicle wiring systems. The devices can replace some or all of the fuses conventionally used. Preferred devices contain PTC conductive polymers. Because the PTC devices can be reset without physical access to them, the wiring system can be arranged more efficiently and more economically. For example, the size of at least some of the wires of the harness can in many cases be reduced.

84 Citations

52 Claims

1. An electrical system which is installed in a road vehicle, an airplane, or a ship, and which comprises(1) a source of electrical power;
- (2) a supply connection means which is electrically connected to a first pole of the power source, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a return connection means which is electrically connected to a second pole of the power source; and
  
  (4) a plurality of branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, at least two of the branch circuits being PTC-protected branch circuits, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit, and(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK ;
  
  (b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and
  
  (c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;
  
  whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the power source by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC device to trip and reduce the current to a steady state value substantially below I_TRIP ;
  
  wherein at least one of the following conditions is fulfilled;
  
  (A) in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and
  
  80°
  
  C. the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between -40°
  
  C. and 85°
  
  C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD,where I_LOAD is the maximum steady state current in that PTC-protected branch circuit under normal operating conditions;
  
  (B) in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and
  
  80°
  
  C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit and(ii) at at least one temperature between -40° and
  
  85°
  
  C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit;
  
  (C) the total number of PTC-protected branch circuits is p, and at all temperatures between 0° and
  
  80°
  
  C., in q of the PTC-protected branch circuits, where q is at least 0.1 p, the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is equal to or lower than I₂₂, where I₂₂ is the I_DAMAGE of PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG);
  
  or(D) some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE equal to or less than I₂₂, and some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE greater than I₂₂, where I₂₂ is the I_DAMAGE of a PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG), and at all temperatures between 0° and
  
  80°
  
  C., the total length of the PTC-protected branch connection means having an I_DAMAGE greater than I₂₂ is not more than x times the total length of the PTC-protected branch connection means in which I_DAMAGE is equal to or less than I₂₂, where x is 10.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
- - 2. A system according to claim 1 wherein at least one of the PTC-protected branch circuits comprises a switch which (i) can be operated to disconnect at least one of the PTC-protected branch circuits from the power source and (ii) is connected between the branch PTC device and the operative electrical device.
  - 3. A system according to claim 2 wherein the switch comprises a relay, a field effect transistor, a bipolar solid state device or a silicon-controlled rectifier.
  - 4. A system according to claim 1 which comprises at least one power distribution node which comprises a power input line and a plurality of outgoing lines, a plurality of said outgoing lines being electrically connected to the input line through a branch PTC protection device and being PTC-protected branch connection means of PTC-protected branch circuits.
  - 5. A system according to claim 4 wherein the power input line and the outgoing lines are electrically connected to each other through a connection means selected from flexible printed circuits, printed circuit boards and metal fretts.
  - 6. A circuit according to claim 5 wherein the branch PTC device is electrically connected in series with the connection means by means of a solder joint, or a weld, or an elastically deformed contact member, or a plastically deformed contact member.
  - 7. A system according to claim 6 wherein the branch PTC devices, and the connections between the power input line, the branch PTC devices and the outgoing lines, are contained within a reopenable enclosure.
  - 8. An electrical system according to claim 2 wherein at least one of the branch circuits is a fuse-protected or breaker-protected branch circuit which comprises(a) a fuse or circuit breaker which(i) is the weakest current-carrying point in the fuse-protected branch circuit,(ii) is electrically connected directly to the supply means, and(iii) disconnects the fuse-protected branch circuit if the current through it exceeds a value of I_FUSE amps, I_FUSE being less than I_LINK ;
    - (b) an operative electrical device; and
      
      (c) a fused branch electrical connection means which(i) is electrically connected directly to the fuse or circuit breaker and to the operative device and(ii) has at all points a current-carrying capacity of I_FB amps, I_FB being more than I_FUSE.
  - 9. An electrical system according to claim 2 wherein the supply means comprises(a) a principal supply means which is electrically connected directly to the power source and which contains a fuse or a circuit breaker which (i) is the weakest current-carrying point of the principal supply means, and (ii) has a current-carrying capacity of I_LINK amps, and(b) a plurality of subsidiary supply means which are electrically connected to the principal supply means in parallel with each other, at least one of said subsidiary supply means(i) containing a subsidiary circuit protection device which is the weakest current-carrying point in the subsidiary supply means and which is converted into a high resistance state if the current in the subsidiary supply means exceeds a value I_SUB amps and thus reduces the current to a value substantially below I_SUB, and(ii) being connected to a plurality of PTC-protected branch circuits, in each of which I_TRIP is less than I_SUB.
  - 10. An electrical system according to claim 1 wherein the PTC device contains a PTC element which is composed of a PTC conductive polymer.
  - 11. An electrical system according to claim 10 wherein the PTC conductive polymer comprises a polymeric matrix comprising polyvinylidene fluoride and, dispersed in the polymeric matrix, carbon black.
  - 12. An electrical system according to claim 2 which comprises two or more device enclosures, each of which(a) is composed of an electrically insulating material, and(b) contains a plurality of the PTC devices, each PTC device forming part of one of the PTC-protected branch circuits;
    - at least one of said device enclosures being separated from another of said device enclosures by a distance of at least 150 cm.
  - 13. An electrical system according to claim 2 which is installed in a road vehicle, and wherein the power supply comprises a battery.
  - 14. An electrical system according to claim 13 wherein at least one of the PTC-protected branch circuits contains a single PTC protection device and a plurality of operative devices which are electrically connected between the PTC protection device and the return means.
  - 15. An electrical system according to claim 13 wherein there are p PTC-protected branch circuits, and in q of the PTC-protected branch circuits, where q is greater than 0.3 p, I_DAMAGE is equal to or lower than I₂₂, where I₂₂ is the I_DAMAGE of copper wire having a cross sectional area of 0.324 mm² (22 AWG).
  - 16. An electrical system according to claim 13 which comprises at least four branch PTC protection devices located at at least two spaced-apart locations which are separated from each other by a distance of at least 50 cm.
  - 17. An electrical system according to claim 13 wherein there are p PTC-protected branch circuits, and in r of the PTC protected branch circuits, where r is at least 0.75 p, the length of the PTC branch connection means is less than 200 cm.
  - 18. An electrical system according to claim 2 wherein at least one of the PTC-protected branch circuits contains a second PTC circuit protection device which(i) is electrically connected in series with the operative device in that PTC-protected branch circuit, and(ii) is converted into a high temperature high resistance state if said operative device becomes excessively hot or if said operative device is operated for more than a predetermined time.
  - 19. An electrical system according to claim 1 which further comprises a voltage sensor which senses the voltage at a point on the PTC-protected branch connection means and which, when the branch PTC circuit protection device is in the high temperature high resistance state, is capable of generating a visible light signal or a signal which can be fed to a computer.
  - 20. An electrical system according to claim 1 wherein in at least one of the PTC-protected branch circuits(a) at all temperatures between -40°
    - and +85°
      
      C.,(i) the I_PASS of the branch PTC device in that circuit is at least 1.1 times the I_LOAD in that PTC-protected branch circuit, and(ii) the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that circuit;
      
      (b) at at least one temperature between -40° and
      
      +85°
      
      C., the I_PASS of the branch PTC device in that circuit is at most 1.5 times the I_LOAD, where I_LOAD is the maximum steady state current in that PTC-protected branch circuit under normal operating conditions; and
      
      (c) at at least one temperature between -40° and
      
      +85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that circuit.
  - 21. A system according to claim 1 wherein at least two of conditions (A), (B), (C) and (D) are fulfilled.
  - 22. A system according to claim 1 wherein at least three of conditions (A), (B), (C) and (D) are fulfilled.
  - 23. A system according to claim 1 wherein all of conditions (A), (B), (C) and (D) are fulfilled.
  - 24. A system according to claim 1 which is installed in a road vehicle, and wherein(1) the power supply comprises a battery;
    - (2) each of the branch PTC protection devices contains a PTC element which is composed of a conductive polymer; and
      
      (3) the total number of PTC-protected branch circuits is p, and at all temperatures between 0° and
      
      80°
      
      C., in q of the PTC-protected branch circuits, where q is greater than 0.3 p, I_DAMAGE is equal to or lower than I₂₂, where I₂₂ is the I_DAMAGE of PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG).
  - 25. A system according to claim 24 wherein in r of the PTC-protected branch circuits, where r is at least 0.75 p, the length of the PTC branch connection means is less than 200 cm.
  - 26. A system according to claim 24 wherein condition (A) is fulfilled.
  - 27. A system according to claim 24 wherein condition (B) is fulfilled.

28. An electrical system which is installed in a road vehicle, and which comprises(1) a battery;
- (2) a supply connection means which is electrically connected to a first pole of the battery, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a return connection means which is electrically connected to a second pole of the battery; and
  
  (4) a plurality of PTC-protected branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit,(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK, and(iii) contains a PTC element which is composed of a conductive polymer;
  
  (b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and
  
  (c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;
  
  whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the battery by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC circuit protection device to trip and reduce the current to a steady state value substantially below I_TRIP ;
  
  in which system, the total number of PTC-protected branch circuits is p, and at all temperatures between 0° and
  
  80°
  
  C., in q of the PTC-protected branch circuits, where q is at least 0.1 p, the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is equal to or lower than I₂₂, where I₂₂ is the I_DAMAGE of PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG).
- View Dependent Claims (29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42)
- - 29. An electrical system according to claim 28 wherein q is greater than 0.3 p.
  - 30. An electrical system according to claim 28 wherein in r of the PTC protected branch circuits, where r is at least 0.75 p, the length of the PTC branch connection means is less than 200 cm.
  - 31. An electrical system according to claim 28 which further comprises a voltage sensor which senses the voltage at a point on the PTC-protected branch connection means and which, when the branch PTC circuit protection device is in the high temperature high resistance state, is capable of generating a visible light signal or a signal which can be fed to a computer.
  - 32. An electrical system according to claim 28 wherein at all temperatures between -40°
    - and +85°
      
      C., q is at least 0.1 p.
  - 33. An electrical system according to claim 28 wherein at all temperatures between -40°
    - and +85°
      
      C., q is greater than 0.3 p.
  - 34. An electrical system according to claim 28 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0°
    - and 80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between -40° and
      
      85°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD,where I_LOAD is the maximum steady state current in that PTC-protected branch circuit under normal operating conditions.
  - 35. An electrical system according to claim 34 wherein in at least one of the PTC-protected branch circuits(a) at all temperatures between -40°
    - and +85°
      
      C.,(i) I_PASS is at least 1.1 times I_LOAD, and(ii) I_DAMAGE is at least 1.1 times I_TRIP ;
      
      (b) at at least one temperature between -40° and
      
      +85°
      
      C., I_PASS is at most 1.5 times I_LOAD ; and
      
      (c) at at least one temperature between -40° and
      
      +85°
      
      C., I_DAMAGE is at most 1.5 times I_TRIP.
  - 36. An electrical system according to claim 28 wherein in at least one of the PTC-protected branch circuits,(i) at all temperature between 0°
    - and 80°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit, and(ii) at at least one temperature between -40° and
      
      +85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protection branch circuit.
  - 37. An electrical system according to claim 36 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between -40°
    - and 85°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between 0° and
      
      80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD.
  - 38. An electrical system according to claim 36 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0°
    - and 80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.2 times I_LOAD, and(ii) at at least one temperature between -40° and
      
      85°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.1 times I_LOAD.
  - 39. An electrical system according to claim 28 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0°
    - and 80°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP, of the branch PTC device in that PTC-protected branch circuit, and(ii) at at least one temperature between -40° and
      
      85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit.
  - 40. An electrical system according to claim 39 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0°
    - and 80°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.2 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit, and(ii) at at least one temperature between -40° and
      
      85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.3 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit.
  - 41. An electrical system according to claim 39 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between -40°
    - and 85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit, and(ii) at at least one temperature between 0° and
      
      80°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit.
  - 42. An electrical system according to claim 28 wherein some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE equal to or less than I₂₂, and some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE greater than I₂₂, where I₂₂ is the I_DAMAGE of a PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG), and at all temperatures between 0°
    - and 80°
      
      C., the total length of the PTC-protected branch connection means having an I_DAMAGE greater than I₂₂ is not more than x times the total length of the PTC-protected branch connection means in which I_DAMAGE is equal to or less than I₂₂, where x is 10.

43. An electrical system which is installed in a road vehicle, and which comprises(1) a battery;
- (2) a supply connection means which is electrically connected to a first pole of the battery, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a return connection means which is electrically connected to a second pole of the battery; and
  
  (4) a plurality of PTC-protected branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit,(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK, and(iii) contains a PTC element which is composed of a conductive polymer;
  
  (b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and
  
  (c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;
  
  whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the battery by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC circuit protection device to trip and reduce the current to a steady state value substantially below I_TRIP ;
  
  in which system some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE equal to or less than I₂₂, and some of the PTC-protected branch connection means are insulated copper wires having an I_DAMAGE greater than I₂₂, where I₂₂ is the I_DAMAGE of a PVC-insulated copper wire having a cross-sectional area of 0.324 mm² (22 AWG), and at all temperatures between 0° and
  
  80°
  
  C., the total length of the PTC-protected branch connection means having an I_DAMAGE greater than I₂₂ is not more than x times the total length of the PTC-protected branch connection means in which I_DAMAGE is equal to or less than I₂₂, where x is 10.
- View Dependent Claims (44, 45)
- - 44. An electrical system according to claim 43 wherein x is 5.
  - 45. An electrical system according to claim 43 wherein x is 2.

46. An electrical system which is installed in a road vehicle, and which comprises(1) a battery;
- (2) a supply connection means which is electrically connected to a first pole of the battery, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a realm connection means which is electrically connected to a second pole of the battery; and
  
  (4) a plurality of PTC-protected branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit,(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK, and(iii) contains a PTC element which is composed of a conductive polymer;
  
  (b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and
  
  (c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;
  
  whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the battery by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC circuit protection device to trip and reduce the current to a steady state value substantially below I_TRIP ;
  
  in which system in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and
  
  80°
  
  C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between -40° and
  
  85°
  
  C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD,where I_LOAD is the maximum steady state current in that PTC-protected branch circuit under normal operation conditions.
- View Dependent Claims (47, 48)
- - 47. An electrical system according to claim 46 wherein in at least one of the PTC-protected branch circuits(a) at all temperatures between -40°
    - and +85°
      
      C.,(i) I_PASS is at least 1.1 times I_LOAD, and(ii) I_DAMAGE is at least 1.1 times I_TRIP ;
      
      (b) at at least one temperature between -40° and
      
      +85°
      
      C., I_PASS is at most 1.5 times I_LOAD ; and
      
      (c) at at least one temperature between -40° and
      
      +85°
      
      C., I_DAMAGE is at most 1.5 times I_TRIP.
  - 48. An electrical system according to claim 46 wherein in at least one of the PTC-protected branch circuits,(i) at all temperature between 0°
    - and 80°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PTC device in that PTC-protected branch circuit, and(ii) at at least one temperature between -40° and
      
      +85°
      
      C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP of the branch PTC device in that PTC-protection branch circuit.

49. An electrical system which is installed in a road vehicle, and which comprises(1) a battery;
- (2) a supply connection means which is electrically connected to a first pole of the battery, and which has, at its weakest current-carrying point, a current-carrying capacity of I_LINK amps,(3) a return connection means which is electrically connected to a second pole of the battery; and
  
  (4) a plurality of PTC-protected branch circuits which are electrically connected in parallel between the supply connection means and the return connection means, each of said branch circuits comprising(a) a branch PTC circuit protection device which(i) is electrically connected to the supply connection means directly or via at least one other PTC-protected branch circuit,(ii) is taken from a batch of PTC devices made by the same manufacturing process, the largest steady state current which will not cause any of the devices in the batch to trip being I_PASS and the smallest steady state current which will cause all of the devices in the batch to trip being I_TRIP, I_TRIP being less than I_LINK, and(iii) contains a PTC element which is composed of a conductive polymer;
  
  (b) an operative electrical device which is spaced apart from the branch PTC circuit protection device; and
  
  (c) an elongate PTC-protected branch connection means which(i) electrically connects the branch PTC device and the operative device, and(ii) has at all points a current-carrying capacity of at least I_DAMAGE amps, I_DAMAGE being more than I_TRIP ;
  
  whereby, if the PTC-protected branch connection means is accidentally connected to the first and second poles of the battery by connections which do not include the operative device, there is created a fault circuit which contains the branch PTC circuit protection device and in which the current is initially greater than I_TRIP, thus causing the branch PTC circuit protection device to trip and reduce the current to a steady state value substantially below I_TRIP ;
  
  in which system in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0° and
  
  80°
  
  C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at least 1.1 times the I_TRIP of the branch PCT device in that PTC-protected branch circuit, and(ii) at at least one temperature between -40° and
  
  85°
  
  C., the I_DAMAGE of the branch connection means in that PTC-protected branch circuit is at most 1.5 times the I_TRIP, of the branch PTC device in that PTC-protected branch circuit.
- View Dependent Claims (50, 51, 52)
- - 50. An electrical system according to claim 49 wherein in at least one of the PTC-protected branch circuits,(i) at all temperatures between -40°
    - and 85°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.1 times I_LOAD, and(ii) at at least one temperature between 0° and
      
      80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD.
  - 51. An electrical system according to claim 49 in at least one of the PTC-protected branch circuits,(ii) at at least one temperature between 0°
    - and 80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.3 times I_LOAD.
  - 52. An electrical system according to claim 49 in at least one of the PTC-protected branch circuits,(i) at all temperatures between 0°
    - and 80°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at least 1.2 times I_LOAD, and(ii) at at least one temperature between -40° and
      
      85°
      
      C., the I_PASS of the branch PTC device in that PTC-protected branch circuit is at most 1.1 times I_LOAD.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Littelfuse Incorporated
Original Assignee
Raychem Limited (TE Connectivity Limited)
Inventors
Walsh, Malcolm R.
Primary Examiner(s)
Paschall, Mark H.

Application Number

US08/566,588
Time in Patent Office

586 Days
Field of Search

219/202, 219/481, 219/483, 219/484, 219/485, 219/486, 219/501, 219/508, 219/509, 219/504, 219/505, 361/106, 361/24, 361/27
US Class Current

219/505
CPC Class Codes

B60R 16/0207   Wire harnesses

B60R 16/03   for supply of electrical po...

H02H 9/026   Current limitation using PT...

Use of PTC devices

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

84 Citations

52 Claims

Specification

Use Cases

Quick Links

Others

Use of PTC devices

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

84 Citations

52 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others