Flat gas discharge tube devices and methods

What is claimed is: 1. A gas discharge tube (GDT) device comprising: a first insulator substrate having first and second sides and defining an opening; second and third insulator substrates mounted to the first and second sides of the first insulator substrate, respectively, such that inward facing surfaces of the second and third insulator substrates and the opening of the first insulator substrate define a chamber; first and second electrodes implemented on the inward facing surfaces of the second and third insulator substrates, respectively; first and second terminals implemented on at least one external surface of the GDT device; and a first electrical connection implemented between the first electrode and the first terminal, and a second electrical connection implemented between the second electrode and the second terminal. 2. The GDT device of claim 1 , wherein the first insulator substrate includes a ceramic layer. 3. The GDT device of claim 2 , wherein each of the second and third insulator substrates includes a ceramic layer. 4. The GDT device of claim 1 , further comprising first and second seals configured to facilitate sealing of the chamber, the first seal implemented between the second insulator substrate and the first insulator substrate, the second seal implemented between the third insulator substrate and the first insulator substrate. 5. The GDT device of claim 4 , wherein each of the first and second seals is an electrically conductive seal. 6. The GDT device of claim 4 , wherein each of the first and second seals is an electrically non-conductive seal. 7. The GDT device of claim 4 , wherein the first and second terminals are implemented at least on the second insulator substrate. 8. The GDT device of claim 7 , wherein the first and second terminals are also implemented on the third insulator substrate and electrically connected to their respective first and second terminals on the second insulator substrate. 9. The GDT device of claim 7 , wherein the first electrical connection includes a first internal via that extends through the second insulator substrate and configured to electrically connect the first electrode and the first terminal. 10. The GDT device of claim 9 , wherein the second electrical connection includes a second internal via that extends through the third insulator substrate and configured to electrically connect the second electrode and a conductor feature on an outward facing surface of the third insulator substrate. 11. The GDT device of claim 10 , wherein the second electrical connection further includes a third internal via that extends through the third insulator substrate, the first insulator substrate, and the second insulator substrate, the third internal via configured to electrically connect the conductor feature on the outward facing surface of the third insulator substrate and the second terminal on the second insulator substrate. 12. The GDT device of claim 10 , wherein the second electrical connection further includes an external conductive feature implemented on a side edge of the GDT device and configured to electrically connect the conductor feature on the outward facing surface of the third insulator substrate and the second terminal on the second insulator substrate. 13. The GDT device of claim 12 , wherein the external conductive feature includes a castellation feature that is at least partially filled and/or plated with electrically conductive material. 14. The GDT device of claim 7 , wherein the first electrical connection includes a first metalized trace that extends laterally from the first electrode to a first side edge of the GDT device, and the second electrical connection includes a second metalized trace that extends laterally from the second electrode to a second side edge of the GDT device. 15. The GDT device of claim 14 , wherein the first side edge and the second side edge are opposing edges. 16. The GDT device of claim 14 , wherein the first electrical connection further includes a first external conductive feature implemented on the first side edge and configured to electrically connect the first metalized trace and the first terminal, the second electrical connection further includes and a second external conductive feature implemented on the second side edge and configured to electrically connect the second metalized trace and the second terminal. 17. The GDT device of claim 16 , wherein each of the first and second external conductive features includes a castellation feature that is at least partially filled and/or plated with electrically conductive material. 18. A method for fabricating a gas discharge tube (GDT) device, the method comprising: providing or forming a first insulator substrate having first and second sides and defining an opening; mounting second and third insulator substrates to the first and second sides of the first insulator substrate, respectively, such that inward facing surfaces of the second and third insulator substrates and the opening of the first insulator substrate define a chamber, each of the second and third insulator substrates having an electrode implemented on the respective inward facing surface; forming first and second terminals on at least one external surface of the second and third insulator substrates; and electrically connecting the first electrode and the first terminal, and electrically connecting the second electrode and the second terminal. 19. A method for fabricating gas discharge tube (GDT) devices, the method comprising: providing or forming a first insulator plate having first and second sides and an array of openings; providing or forming second and third insulator plates, each including an array of electrodes implemented on a surface, and a conductor feature electrically connected to each electrode; and mounting the second and third insulator plates to the first and second sides of the first insulator plate, respectively, such that the arrays of electrodes on the second and third insulator plates face each other through the array of openings of the first insulator plate to thereby define an array of chambers.