Surge protection circuit for passing DC and RF signals
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01C-007/12
H02H-001/00
H02H-001/04
H02H-003/22
H02H-009/06
출원번호
US-0035126
(2011-02-25)
등록번호
US-8179656
(2012-05-15)
발명자
/ 주소
Jones, Jonathan L.
Penwell, Chris
출원인 / 주소
Transtector Systems, Inc.
대리인 / 주소
Snell & Wilmer LLP
인용정보
피인용 횟수 :
3인용 특허 :
81
초록▼
A surge protection circuit may include a tuned circuit board with traces designed to provide a surge protected and RF isolated DC path while propagating RF signals through the PCB dielectric with microstrip lines. The surge protection circuit utilizes high impedance RF decoupling devices such as qua
A surge protection circuit may include a tuned circuit board with traces designed to provide a surge protected and RF isolated DC path while propagating RF signals through the PCB dielectric with microstrip lines. The surge protection circuit utilizes high impedance RF decoupling devices such as quarterwave traces or inductors which isolate the multistage DC protection scheme which may include a gas discharge tube, serial surge impeding devices such as inductors and/or resistors, a decoupled air/spark gap device and a Zener diode junction.
대표청구항▼
1. A surge protection device comprising: a circuit board having a first surface and a second surface opposing the first surface;a surge node positioned on the circuit board;a protected node positioned on the circuit board;a first microstrip positioned on the first surface of the circuit board and co
1. A surge protection device comprising: a circuit board having a first surface and a second surface opposing the first surface;a surge node positioned on the circuit board;a protected node positioned on the circuit board;a first microstrip positioned on the first surface of the circuit board and connected to the surge node;a second microstrip positioned on the second surface of the circuit board and connected to the protected node, the second microstrip dielectrically coupled to the first microstrip via the circuit board for passing an RF signal from the surge node to the protected node; anda DC path for passing a DC signal from the surge node to the protected node, the DC path coupled with a ground source for redirecting a surge signal to the ground source. 2. The surge protection device of claim 1, wherein: the first microstrip partially overlaps with the second microstrip to form a capacitor having a capacitance defined by a dielectric material of the circuit board, andthe capacitor is for preventing a surge signal from passing from the surge node to the protected node. 3. The surge protection device of claim 1, wherein the DC path includes a low-pass device for blocking the RF signal, passing the DC signal, and conducting the surge signal to an intermediate node without significantly attenuating the surge signal. 4. The surge protection device of claim 3, wherein the low-pass device is a high impedance device connected to the surge node and the intermediate node. 5. The surge protection device of claim 3, wherein the low-pass device is a quarter-wave microstrip line connected to the surge node and the intermediate node. 6. The surge protection device of claim 3, wherein the DC path includes: an inductor connected to the low-pass device, for attenuating the surge signal and passing the DC signal to the protected node, anda spark gap device connected to the intermediate node, for sinking the surge signal to the ground source. 7. The surge protection device of claim 6, wherein the DC path includes: a Zener device connected to the inductor, for preserving a voltage level of the DC signal, anda decoupling capacitor connected to the inductor, for shunting the attenuated surge signal to the ground source. 8. The surge protection circuit of claim 1, further comprising a gas discharge device connected to the surge node, and for conducting a surge signal from the surge node to a ground source. 9. A surge protection device for passing DC and RF signals comprising: a circuit board having a first surface and a second surface opposing the first surface, each of the first surface and the second surface including a metallic trace, the metallic traces at least partially overlapping with each other to form a capacitor therebetween;a surge port connected to the metallic trace of the first surface of the circuit board;a protected port connected to the metallic trace of the second surface of the circuit board so as to receive an RF signal from the surge port; anda DC path connected with the surge port and the protected port, for passing a DC signal from the surge port to the protected port and redirecting a surge signal from the surge port to a ground source. 10. The surge protection device of claim 9, wherein the DC path includes a first high impedance device connected to the surge port and a first node,a first inductor connected to the first node and a second node,a second inductor connected to the second node and a third node, anda second high impedance device connected to the third node and the protected port. 11. The surge protection device of claim 10, wherein the first high impedance device includes a quarter-wave element for rejecting the RF signal, passing the DC signal to the first node, and passing the surge signal to the first node without significantly reducing a signal strength thereof. 12. The surge protection device of claim 10, wherein the DC path includes a spark gap device connected between the first node and the ground source, and for attenuating the surge signal. 13. The surge protection device of claim 10, wherein the DC path includes a Zener device connected to the second node, and for sinking the surge signal to the ground source. 14. The surge protection device of claim 10, wherein the DC path includes: a first decoupling capacitor connected to the first node, and for shunting the surge signal to the ground source, anda second decoupling capacitor connected to the second node and the ground source, and for forming an L-C filter with the second inductor. 15. The surge protection device of claim 9, further comprising a gas discharge device connected to the surge node and the ground source, and for reducing a current of the surge signal. 16. A method for passing DC power and protecting electronic components from power surge, the method comprising the steps of: receiving a signal at a surge node;passing, via an integrated capacitor formed between a first surface of a circuit board and a second surface of the circuit board opposing the first surface, an RF component of the signal to a protected node;redirecting, via a low pass device, a surge component and a DC component of the signal from the surge node to an intermediate node;shunting the surge component from the intermediate node to a ground source; andconducting, via an inductor, the DC component from the intermediate node to the protected node. 17. The method of claim 16, wherein the redirecting step includes preserving a power level of the surge component of the signal. 18. The method of claim 16, wherein the passing step includes: forwarding the RF component of the signal to a first microstrip formed on the first surface of the circuit board, andreceiving the RF component of the signal at a second microstrip partially overlapping with the first microstrip and formed on the second surface of the circuit board. 19. The method of claim 16, further comprising the step of attenuating, via a spark gap device, the surge component of the signal.
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