APPLICATION NOTE 398

T3/E3/STS-1 LIU Secondary Surge Protection Design


Abstract: Application note 398 is a design guide that has all the information necessary for a designer to build a network interface circuit for a piece of telecommunications equipment using Dallas Semiconductor T3, E3, or STS-1 line interface units (LIUs). The network interface is the part of the system that connects to other telecommunications equipment through coaxial cable. The main focus is on inter-building connections which require overvoltage/overcurrent protection. Protection is often needed in telecommunications circuits to prevent damage from lightning strikes or power line cross events. The application note begins with a general overview of the protected network interface and a listing of the various specification test procedures. This is followed by an example circuit for metallic protection along with the component selection guide. Because the outer conductor of the transmission line is grounded, it is only necessary to provide a solution for metallic type surges. This design guide will enable the designer to meet the stringent specifications required when designing the network interface for telecommunications equipment.

Introduction to Protection Circuits

T3, E3, and STS-1 lines are used primarily in intra-building applications to connect one piece of equipment to another. Although the potential dangers from lightning strike and power-line cross are inherently less for intra-building lines than for externally-run lines (such as T1), various telecom standards organizations have established surge protection requirements for intra-building lines. For line interface designs to meet these requirements, protection networks must be used to direct high voltages and currents away from sensitive low-voltage CMOS devices.

Surge protection networks are divided into two categories: primary and secondary. Primary protection is usually provided by gas discharge tubes or carbon blocks located at the point where the line enters the premises. Since primary protection only limits voltage surges to 1000VPEAK and power line cross to 600VRMS, secondary voltage protection is also necessary. Secondary protection provides additional voltage and current limiting to protect the LIU from damage.

Longitudinal (common mode) surge types are from tip to ground or from ring to ground, while metallic (differential) surge types are between tip and ring. Longitudinal surges are formed on the tip and ring conductors by lightning currents that enter the conductive shield of the cable. Because the outer conductor in T3/E3/STS-1 cables is grounded, it is only necessary to protect against metallic surges.

Recommended Protection Circuit

Figure 1 is Dallas Semiconductor's recommended metallic surge-suppression circuit for intra-building T3/E3/STS-1 applications. This circuit is designed to comply with the requirements listed in Table 1.

Table 1. Applicable intra-building protection requirements
TEST VOLTAGE CURRENT (Amp) DURATION
Telecordia GR-1089-CORE      
Lightning Surge Test 800VPEAK 100 2 x 10µs
AC Power Test 120VRMS 60Hz 25 15 minutes
UL 60950 (formerly UL 1950)      
AC Power Test 600VRMS 60 Hz 40 5 seconds
AC Power Test 600VRMS 60 Hz 7 5 seconds
AC Power Test 600VRMS 60 Hz 2.2 30 minutes
ITU-T K.20      
Lightning Surge Test 1000VPEAK 25 10 x 700µs
AC Power Test 600VRMS 2 200ms
ITU-T K.21      
Lightning Surge Test 1000VPEAK 25 10 x 700µs
AC Power Test 600VRMS 2 200ms
AC Power Test 230VRMS 23 15 minutes
AC Power Test 230VRMS 1.15 15 minutes
AC Power Test 230VRMS 0.38 15 minutes
TIA/EIA-IS-968 (formerly FCC Part 68)      
Lightning Surge Test 800VPEAK 100 10 x 560µs
Lightning Surge Test 1000VPEAK 25 9 x 720µs

Figure 1. Recommended metallic surge-protection circuit for T3/E3/STS-1.
Figure 1. Recommended metallic surge-protection circuit for T3/E3/STS-1.

Note 1: The layout from the transformers to the network interface is critical. Traces should be at least 25mils wide and separated from other circuit lines by at least 150mils.
Note 2: The trace impedance from the transformer to the device and the transformer to the network connectors should be matched to the line impedance of either 75Ω or 300Ω.

The three main components used for protection are the fuse, the thyristor, and the diodes. The fuse protects the transformer against high-current conditions such as power-line cross. Typical fuses have a surge current rating above 100A for the different surge profiles. The fuses in Table 2 pass the 2 x 10µs, 10 x 160µs, 10 x 560µs, and 10 x 1000µs surges without opening. The thyristor is a solid state crowbar device that changes from an open circuit to a short circuit condition when the voltage across the device exceeds the switching voltage. The thyristor remains in the short circuit state until the current flowing through the device falls below a set holding current. In the short circuit state, excess current is routed to ground, thus stopping it from damaging the LIU device. The thyristor cannot be connected directly between tip and ring because its capacitance is large enough to distort the T3/E3/STS-1 signal. The diodes remove the thyristor capacitance from the tip/ring differential pair while still allowing the thyristor to perform its crowbar function.

Table 2. Recommended protection components
COMPONENT DESCRIPTION PART SUPPLIER NOTES
D1-D8 Ultrafast Power Rectifier MURS160T3 On Semiconductor Surface-mount
MUR1100E On Semiconductor Through-hole
F1, F2 1.25A slow blow fuse SMP 1.25 Bel Fuse
1.25A slow blow fuse F1250T Teccor Electronics
C1, C2 0.05µF, 5% Tol, 10V Kemet
R1, R2 330Ω, 1% TOl, 1/8W Vishay
R3 50Ω, 1% Tol, 1/8W Vishay
S1, S2 77V max transient suppressor P0640SC MC Teccor Electronics
S3 6V max transient suppressor P0080SC MC Teccor Electronics
T1, T2 Transformer 1:2CT PE-65968 Pulse Engineering Surface-mount
PE-65969 Pulse Engineering Through-hole
TG07-0206NE Halo Electronics Surface-mount
TD07-0206NE Halo Electronics Through-hole

Suppliers List
SUPPLIER PHONE FAX WEBSITE
Bel Fuse, Inc. (201) 432 - 0463 (201) 432 - 9542 www.belfuse.com
Halo Electronics, Inc. (650) 903 - 3800 (650) 903 - 9300 www.haloelectronics.com
Pulse Engineering, Inc. (858) 674 - 8100 (858) 674 - 8262 www.pulseeng.com
Teccor Electronics (972) 580 - 7777 (972) 550 - 1309 www.teccor.com

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APP 398:
APPLICATION NOTE 398,AN398, AN 398, APP398, Appnote398, Appnote 398