Data Communication and Telecommunication
Surge Suppression
Technical Data TD01001002E
Effective September 2006New Information
Contents
ECCP Coaxial or twinaxial-based networked equipment running IBM 3270, AS400, Ethernet, satellite/cable/closed circuit TV and most other wideband, communication interfaces. . . . . . . . . . . . . . . . . . . . . . .
2
EDDP Hubs, bridges, routers, switches and other networked equipment running 10Base-T and 100Base-T Ethernet, RS-422, RS-423, RS-232, Analog Dial-up, CSU/DSU, DDS, ISDN, T1 and most other communication environments. . . . . . . . . . .
4
EMTJ LAN interface technologies such as Ethernet, 10/100Base-T, CAT5, CAT5e, CAT6 and Power over Ethernet (PoE). . . . . . . . . . . . . . . . . . . . . . . . . . . .
6
EPCH Protected patch panels CAT5 Ethernet, 100Base-T, T1, ISDN, and telco protocols. . . . . . . . . . . .
8
ERAK Rack-mount and wall-mount standoff protectors 10Base-T and 100Base-T Ethernet, PoE, Cable, CCTV, RS-422, RS-232, ISDN, T1, DDS, Dial-up, and most other communication interfaces.. . . . . . . . . . .
10
ESIP Parallel and serial devices such as printers and external modems, point-of-sale terminals, mainframes, dumb terminals, and most other devices using Subminiature D connectors. Includes Ethernet, RS-232, RS-422 and LAN/WAN interfaces. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
12
ETSP Networked equipment connected to RS-422, RS-232, Muxes, DDS, Analog Dial-up, ISDN, T1 and most other communication interfaces. . . . . . . . . . .
14
2 EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
ECCP Series Data Line Surge Protection
Introduction
The ECCP Series of data communication line surge protectors will ensure the reliable operation of coaxial or twinaxial based net-worked equipment running IBM 3270, AS400, Ethernet, satellite/cable/closed circuit TV and most other wideband, communication interfaces.
ECCPs Offer:
●
State-of-the-art, avalanche diode and thyristor technology.
●
Compact, in-line installation.
●
High-speed, high-energy handling capability.
●
Low shunt capacitance to reduce signal loss.
You Receive:
●
Affordable, superior, equipment protection.
●
Improved reliability and maximized system up-time.
●
Protection at the interface card.
●
Adaptability to most industry applications.
The ECCP Series devices guard sensitive data networks against lightning induced surges, ac power interference, electrostatic discharge and ground loop energies. Typical applications include: CCTV cameras, residential cable installations, terminals, file serv-ers, repeaters and mainframes using Ethernet and most other communication applications.
High-speed avalanche diode technology is used in conjunction with low capacitance circuitry, enabling the protectors to function at a much greater bandwidth without causing signal degradation. This, in combination with their small size, makes the ECCP exceedingly versatile.
Standard units protect both center conductor(s) and shield cir-cuits. A separate grounding wire on all units provides an isolated path to ground without adding an additional ground connection to the shield or network ground point.
ECCPs can also be specially configured to accommodate other standard connector interfaces (F, N, BNC, etc.). A wide selection of clamping voltages is available.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
�
Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OFTHE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E
©
Copyright 2006
3
Technical Data
TABLE 1. ECCP ELECTRICAL SPECIFICATIONS
�
8/20 microseconds for ECCP-CMS.
�
1.5 GHz for ECCP-CMS.
TABLE 2. ECCP SYSTEM APPLICATION AND CATALOG NUMBERS
�
�
See Ordering Guidelines below.
�
ECCP-CMS types are not UL
�
listed.
Note:
See
Figure 1
below. Special configurations available.
FIGURE 1. ECCP CONNECTOR TYPE CONFIGURATIONS
Note:
All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note:
Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example
: ECCP-2DA N (EN) F/F = ECCP2DANENFF.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL)
�
RESPONSE TIMEMAXIMUM SHUNT CAPACITANCE
SERIES RESISTANCE
INSERTION LOSS AT 40 MHZ
�
Ethernet 7.5 Volts 132 Amps < 5 Nanoseconds <30 pF None -0.5 dB
CCTV 7.5 Volts 132 Amps < 5 Nanoseconds <30 pF None -0.5 dB
Cable/Satellite TV 90 Volts 20 kA < 5 Nanoseconds 1 pF None <1 dB
AS400/3X Twinaxial 10 Volts 103 Amps < 5 Nanoseconds <30 pF None -0.5 dB
CONNECTOR TYPE ETHERNET 10BASE-2 ETHERNET 10BASE-5 CCTV CABLE/SATELLITE TV AS400/3X TWINAXIAL
BNC TEE Configuration (Figure A) ECCP-2DT (EN) — — — —
BNC Male/Female Straight (Figure B) ECCP-2DA (EN) — — — —
BNC Male/Female Straight (Not Shown) — — ECCP-CCTV — —
Twinaxial Female/Female (Figure C) — — — — ECCP-2BM F/F
Twinaxial Male/Female (Figure D) — — — — ECCP-2BM M/F
N Series Female/Female (Figure E) — ECCP-2DA N (EN) F/F — — —
N Series Male/Female (Figure F) — ECCP-2DA N (EN) M/F — — —
F Series Female/Female (Figure G) — — — ECCP-CMS F/F & M/F
�
—
3.25 (82.5)
4.70 (119.4)
4.40 (111.8)
3.43 (87.1)
1.45 (36.8)
0.90 (22.9)
4.70 (119.4)
4.40 (111.8)
3.33 (84.6)
0.77 (19.6)
0.90 (22.9)
0.90 (22.9)
Figure A
Figure D
Figure B
Figure E
Figure C
Figure F Figure G
4 EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
EDDP Series Data Line Surge Protection
Introduction
The EDDP Series of data communication line protectors will ensure the reliable operation of hubs, bridges, routers, switches and other networked equipment running 10Base-T and 100Base-T Ethernet, RS-422, RS-423, RS-232, Analog Dial-up, CSU/DSU, DDS, ISDN, T1 and most other communication environments.
EDDPs Offer:
●
State-of-the-art, avalanche diode and thyristor technology.
●
Compact, in-line installation.
●
High-speed, high-energy handling capability.
●
Low shunt capacitance to reduce signal loss.
You Receive:
●
Affordable, superior, equipment protection.
●
Improved reliability and maximized system up-time.
●
Protection at the interface card.
●
Adaptability to most industry applications.
Transient surges can enter electronic equipment through any pathway provided. If a facility has a reliable ac power protection system in place, transient surge energies can still be generated within a building by sources such as inductive load switching, ground loop currents and electrostatic discharge. These surge energies are clamped by the ac power protector into the communication ground, damaging expensive communications hardware.
Eaton protectors are specifically designed to give added security to electronic devices with extremely low tolerance for voltage rises or ground loop energies. This protection is particularly important for equipment networked at distances greater than 30 feet (9 m) and installations in high lightning areas.
EDDP models protect virtually any communication interface including: 10Base-T and 100Base-T Ethernet, RS-422, RS-232, RS-423 and most high-speed LAN/WAN interfaces. Combined into a compact interface unit, the devices exhibit an extremely fast response time of less than 5 nanoseconds.
All these features make EDDP protectors the most cost-effective and versatile devices of their kind available today. Whether you need to protect a single communication line, or an entire installation, Eaton’s EDDP Series protectors are an easy, cost-effective solution to overvoltage problems.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
Ideal for LAN Hubs, Concentrators and Mu Multiport Interfaces
�
Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OF THE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E
©
Copyright 2006
5
Technical Data
TABLE 3. EDDP ELECTRICAL SPECIFICATIONS
TABLE 4. EDDP SYSTEM APPLICATION AND CATALOG NUMBERS
�
�
See Ordering Guidelines below.
Note:
See
Figure 2
below. Special configurations available.
FIGURE 2. EDDP CONNECTOR TYPE CONFIGURATIONS
Note:
All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note:
Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example
: EDDP-H4-T = EDDPH4T.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
10/100Base-TRS-422, RS-485, RS-423
7.5 Volts 132 Amps < 5 Nanoseconds <40 pF
RS-232 18 Volts 60 Amps < 5 Nanoseconds <40 pF
CSU/DSUNon-Span T1 (Fused)
60 Volts 50 Amps < 5 Nanoseconds <75 pF
Dial-up Modem/Fax (Fused) 240 Volts 75 Amps < 5 Nanoseconds <95 pF
CONNECTOR TYPE
10BASE-T ETHERNET, RS-422, RS-485, RS-423 100BASE-T RS-232
CSU/DSU NON-SPAN T1 (FUSED)
DIAL-UP MODEM/FAX (FUSED)
Single RJ21 Protects 25 Pairs(50 Wires) (Figure A)
EDDP-25-E — EDDP-25-T EDDP-25-B EDDP-25-G
Double RJ21 Protects 50 Pairs(100 Wires) Not Shown
EDDP-50-E — EDDP-50-T EDDP-50-B EDDP-50-G
4-Position RJ45/RJ11Hub Protector (Figure B)
EDDP-H4-E EDDP-H4-E-C5 EDDP-H4-T EDDP-H4-B EDDP-H4-G
8-Position RJ45/RJ11Hub Protector (Not Shown)
EDDP-H8-E EDDP-H8-E-C5 EDDP-H8-T EDDP-H8-B EDDP-H8-G
12-Position RJ45/RJ11Hub Protector (Figure C)
EDDP-H12-E EDDP-H12-E-C5 EDDP-H12-T EDDP-H12-B EDDP-H12-G
Figure A:
Figure B:
Figure C:
6 EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
EMTJ Series Data Line Surge Protection
Introduction
The EMTJ Series of surge protectors for RJ45 and RJ11 connectors will ensure the reliable operations of devices in a wide variety of environments. We offer protection for LAN interface technologies such as Ethernet,10/100Base-T, CAT5, CAT5e, CAT6, and Power over Ethernet. For WAN and Telco applications, we offer protection for ISDN, T-1, E-1, DDS, analog dial-ups, and more. Additionally, our Custom Products Division provides a solution for almost any application that sends data, voice or video over copper interconnects.
EMTJs Offer:
●
State-of-the-art, avalanche diode and thyristor technology.
●
Compact, in-line installation.
●
High-speed, high-energy handling capability.
●
Low shunt capacitance to reduce signal loss.
You Receive:
●
Affordable, superior, equipment protection.
●
Improved reliability and maximized system up-time.
●
Protection at the interface card.
●
Adaptability to most industry applications.
The EMTJ Series devices guard sensitive data networks against lightning induced surges, ac power interference, electrostatic discharge, and ground loop energies. Typical applications include: NICs, switches, hubs, repeaters, bridges, routers, point-of-sale terminals, modems, fax machines, telephones and most other types of communications equipment utilizing RJ45 or RJ11 modular telephone jacks.
High-speed avalanche diode technology is used in conjunction with low capacitance circuitry, enabling the protectors to function at a much greater bandwidth without causing signal degradation.
Standard units are available with up to 8 wires protected on the RJ45 devices, and up to 6 wires protected on the RJ11 device. All this, in combination with their small size, makes the EMTJ exceedingly versatile.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
FIGURE 3. EMTJ SCHEMATIC
Ideal for RJ11 and RJ 45 — Style Twisted Pair Interfaces
�
Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OF THE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
9' Cord Set
0.92 (23.4)
1.47 (37.3)
3.60 (91.4)
6-inch RJ11 or RJ45, Male/Male Adapter
14 Awg Ground Wire, 10-inch Length with #6 Fork Terminal
1' Cord SetRJ11 or RJ45 Male/Male Adapter
14 Awg Ground Wire, 10-inch Length with #6 Fork Terminal
All Products (Except CAT6 - PPC)
3.60 (91.4)
RJ11 or RJ 45 Male/Male Adapter
0.92 (23.4)
1.47 (37.3)
CAT 6 - PPC Only
EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E
©
Copyright 2006
7
Technical Data
TABLE 5. EMTJ ELECTRICAL SPECIFICATIONS
Note:
Subject to change without notice.
TABLE 6. EMTJ SYSTEM APPLICATION AND CATALOG NUMBERS
�
�
See Ordering Guidelines below.
�
With pins 1 and 8 passed through.
�
Not UL
listed.
Note:
All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note:
Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example
: EMTJ04E/RJ45-C = EMTJ04ERJ45C.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
10Base-T RS/422/423 7.5 Volts 132 Amps < 5 Nanoseconds <40 pF
100Base-T Ethernet CAT5/5e 12 Volts 97 Amps < 5 Nanoseconds <25 pF
1000Base-T Ethernet CAT6 7.5 Volts 132 Amps < 5 Nanoseconds <5 pF (Device Only)
Power over Ethernet Pins 1, 2, 3 & 6 — 7.5 VoltsPins 4, 5, 7 & 8 — 60 Volts
Pins 1, 2, 3 & 6 — 132 AmpsPins 4, 5, 7 & 8 — 50 Amps
< 5 Nanoseconds <25 pF (Ethernet Lines Only)
RS-232 18 Volts 60 Amps < 5 Nanoseconds <40 pF
Digital, ISDN, DDS, T-1/E-1, CSU/DSU 60 Volts 50 Amps < 5 Nanoseconds <75 pF
Analog Dial-up/Modem Fax 240 Volts 75 Amps < 5 Nanoseconds <95 pF
APPLICATION WIRES PROTECTED10BASE-T ETHERNET
100BASE-T ETHERNET RS-422/RS-423 RS-232 CSU/DSU ISDN
RJ-11RJ-11RJ-11
2 Wire, 2 Center Pins4 Wire, 4 Center Pins6 Wire, All Pins
———
———
—EMTJ04E/RJ11EMTJ06E/RJ11
———
———
———
RJ-45RJ-45RJ-45RJ-45RJ-45
1, 2, 3, 61, 2, 4, 51, 2, 7, 84 Wire, 4 Center Pins8 Wire, All Pins
EMTJ04E/RJ45———EMTJ08E/RJ45
————EMTJ-C5E
———EMTJ04E/RJ45-CEMTJ08E/RJ45
———EMTJ04T/RJ45EMTJ08T/RJ45
———EMTJ-ISDN
��
EMTJ-DIGITAL
———EMTJ-ISDN
��
—
APPLICATION WIRES PROTECTED DDS T1DIAL-UP MODEM/FAX
1000BASE-T ETHERNET CAT6
POWER OVER ETHERNET
RJ-11RJ-11RJ-11
2 Wire, 2 Center Pins4 Wire,4 Center Pins6 Wire, All Pins
———
———
EMTJ02G/RJ11EMTJ04G/RJ11EMTJ06G/RJ11
———
———
RJ-45RJ-45RJ-45RJ-45RJ-45
1, 2, 3, 61, 2, 4, 51, 2, 7, 84 Wire, 4 Center Pins8 Wire, All Pins
——EMTJ-DDS
�
—EMTJ-DIGITAL
—EMTJ-T1
�
——EMTJ-DIGITAL
————EMTJ08G/RJ45
————CAT6-PPC
————EMTJ-PoE 60V
8 EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
EPCH Series Data Line Surge Protection
Introduction
The EPCH Series of Protected Patch Panels helps ensure the reliable operation of equipment utilizing CAT5 Ethernet, 100Base-T, T1, ISDN, and telco protocols where system availability is absolutely critical.
EPCHs Offer:
●
State-of-the-art, avalanche diode and thyristor technology.
●
Self-resetting, 1500 watt, bi-directional circuit.
●
Convenient, integral, wiring management system.
You Receive:
●
Affordable, superior, equipment protection.
●
Improved reliability and maximized system up-time.
●
Adaptability to most industry applications.
The EPCH Series is a 110 IDC (Insulation Displacement Contact) to RJ45 patch panel with built-in surge protection. These devices help guard sensitive, high-speed communication equipment from system damage, data loss and downtime resulting from the effects of lightning, surges, electrostatic discharge and other induced voltages on data lines. EPCH units include industry-standard, 19-inch rack-mounting for structured cabling environments, TIA/EIA-568-A compliance, and an extremely fast response time of less than 5 nanoseconds. Convenient, built-in, all-wire protection makes this patch panel cost-effective and a real time saver.
Designed for high-speed data, voice and multimedia applications in structured cabling environments for medium to large-size businesses today, these units incorporate the latest in communication protection technology for mission-critical installations.
The self-resetting, 1500 watt, bi-directional circuit provides maximum reliability. Overvoltages are safely shunted to ground via an 11-inch braided wire and chassis frame for maximum protection.
Installation
●
Remove power to the unprotected equipment.
●
Mount the patch panel to your 19-inch relay rack using the supplied hardware.
●
Disconnect the incoming data lines from the equipment.
●
Attach the ground strap to your rack. The installer should confirm a proper rack to earth ground connection. Consult with an electrician if needed. Try to keep the resistance from the supplied fork terminal ground to the rack frame minimal. It is imperative that both the EPCH and the equipment to be protected are properly grounded for effective operation.
●
Using a 110 punch-down tool, install the cable “22-26 AWG wire” matching the color code on the 110 IDC.
●
Maintain pair twist, up to point of termination, for maximum performance (untwist less than 0.5 of an inch).
●
Connect the patch panel to the equipment.
Note:
These protectors reset themselves after protecting equipment from surges. In the event that lightning or other extreme surge events have exceeded the maximum capability of the protector, these devices are designed to self-destruct in a "fail-safe" mode rather than allow damage to equipment. Installations often require a protec-tor at each end of the data line (call our technical support group with any questions).
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
Ideal for 19" Relay Rack Applications Supporting Hubs, Routers, Switches,ISDN, T1, Telco and Other High-Speed Communications/Networking Equipment
EATON CORPORATION
Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E
©
Copyright 2006
9
Technical Data
TABLE 7. EPCH ELECTRICAL SPECIFICATIONS
TABLE 8. EPCH SYSTEM APPLICATION AND CATALOG NUMBERS
�
�
See Ordering Guidelines below.
�
Not UL
listed.
Note:
See
Figure 4
below. Special configurations available.
FIGURE 4. EPCH CONNECTOR TYPE DIMENSIONS
Note:
All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note:
Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example
: EPCH12-RJ45-B = EPCH12RJ45B.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
10/100Base-TCAT5 Ethernet
12 Volts 97 Amps < 5 Nanoseconds <25 pF
ISDN, T1, DDS (Fused) 60 Volts 50 Amps < 5 Nanoseconds <75 pF
Dial-up, Modem/Fax (Fused) 240 Volts 75 Amps < 5 Nanoseconds <95 pF
CONNECTOR TYPE10BASE-T CAT5 ETHERNET
ISDN, T1, DDS (FUSED)
DIAL-UP MODEM/FAX (FUSED)
12-Port Flush-mount Unit110 Block to RJ45 (Not Shown)
All Pins EPCH12-C5 — —
Center 4 Pins(8-Pin Version Available)
— EPCH12-RJ45-B
�
EPCH12-RJ45-G �
24-Port Flush-mount Unit110 Block to RJ45
All Pins EPCH24-C5 — —
48-Port Stand-off Unit110 Block to RJ45 (Not Shown)
All Pins EPCH48-C5 — —
19.00 (482.6)
0.62 (15.7)
3.50 (88.9)
2.87 (72.8)
10 EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
ERAK Series Data Line Surge Protection
Introduction
The ERAK Series of Rack-Mount and Wall-Mount Standoff protectors will ensure the reliable operation of networked equipment connected to 10Base-T and 100Base-T Ethernet, Power over Ethernet (PoE), Cable, CCTV, RS-422, RS-232, ISDN, T1, DDS, dial-up, and most other communication interfaces.
ERAKs Offer:
● State-of-the-art, avalanche diode and thyristor technology.● Compact, in-line installation.● High-speed, high-energy handling capability.● Low shunt capacitance to reduce signal loss.
You Receive:
● Affordable, superior, equipment protection.● Improved reliability and maximized system up-time.● Protection at the interface card.● Adaptability to most industry applications.
Transient surges can enter electronic equipment through any pathway provided. Facilities with reliable ac power protectors can still experience surge-related, system downtime. Transient surge energies from sources such as inductive load switching, ground loop currents and electrostatic discharge are clamped by ac protectors into the shared communication ground, resulting in damage to expensive communication hardware.
Eaton’s ERAK Series includes 16 port, 19-inch relay rack protectors, as well as 16 and 32 port, 5-inch standoff units for wall-mount protection or environments where 19-inch relay rack space is limited. A wide variety of communication interfaces are supported that include 10Base-T and 100Base-T Ethernet, ATM155, CDDI, 100VG-AnyLan, RS-232, RS-422 and high-speed LAN/WAN applications. For telco requirements, we offer protection for dial-up, T1, DDS, ISDN and other lease line environments. These devices exhibit an extremely fast response time of less than 5 nanoseconds.
All these features make ERAK protectors the most cost-effective and versatile devices of their kind available today. Whether you need to protect a single network concentrator, or an entire relay rack full of voltage sensitive equipment, Eaton ERAK Series protectors are an easy, cost-effective solution to overvoltage problems.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
Ideal for 19" Relay Racks Supporting LAN Hubs, Concentrators and Multi-Port Interfaces
� Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OF THE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E ©Copyright 2006 11
Technical Data
TABLE 9. ERAK ELECTRICAL SPECIFICATIONS
TABLE 10. ERAK SYSTEM APPLICATION AND CATALOG NUMBERS �
� See Ordering Guidelines below.� UL� listed.
Note: See Figure 5 below. Special configurations available.
FIGURE 5. ERAK CONNECTOR TYPE CONFIGURATIONS
Note: All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note: Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example: ERAK32T-SO = ERAK32TSO.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
10/100Base-TRS-422, RS-485, RS-423, Ethernet
7.5 Volts 132 Amps < 5 Nanoseconds <40 pF
RS-232 18 Volts 60 Amps < 5 Nanoseconds <40 pF
ISDN, T1, DDS (Fused) 60 Volts 50 Amps < 5 Nanoseconds <75 pF
Dial-up/Modem/Fax (Fused) 240 Volts 75 Amps < 5 Nanoseconds <95 pF
Power over Ethernet Pins 1, 2, 3 & 6 – 7.5 VoltsPins 4, 5, 7 & 8 – 60 Volts
Pins 1, 2, 3 & 6 – 132 AmpsPins 4, 5, 7 & 8 – 50 Amps
< 5 Nanoseconds <25 pF (Ethernet Lines Only)
CCTV 7.5 Volts 132 Amps < 5 Nanoseconds <30 pF
Cable TV/Satellite 90 Volts 20 kA (8/20 msec Waveform) < 5 Nanoseconds 1 pF
CONNECTOR TYPE
10/100BASE-T, RS-422, RS-485 RS-423, ETHERNET RS-232
ISDN, T1, DDS (FUSED)
DIAL-UP/ MODEM/FAX (FUSED)
POWER OVER ETHERNET CCTV
CABLE TV/SATELLITE
16-Port Flush-mount Unit(Figure A)
All Pins ERAK16-EERAK16-E-C5E
ERAK16-T ERAK16-B — ERAK16-PoE-60V
— —
Center 2 Pins
— — — ERAK16-G — — —
16-Port Stand-off Unit(Not Shown)
All Pins ERAK16-E-SOERAK16-E-C5E-SO
ERAK16-T-SO ERAK16-B-SO — — — —
Center 2 Pins
— — — ERAK16-G-SO — — —
32-Port Stand-off Unit(Not Shown)
All Pins ERAK32-E-SOERAK32-E-C5E-SO
ERAK32-T-SO ERAK32-B-SO — — — —
Center 2 Pins
— — — ERAK32-G-SO — — —
16-Port Flush-mount Unit(Figure B)
Coax — — — — — ERAK16-BNC ERAK16-CMS
16-Port Flush-mount Unit Front-Accessible Modules (Figure C)
— — — ERAK16-T1-LP � — — — —
Figure A
Figure B
Figure C
1.72 (43.7)
2U
1U
19.00 (482.6) 19.00
(482.6)
4.25 (107.9)
1.01 (25.6)
1.60 (40.6)
0.75 (19.0)
3.15 (80.0)
19.00 (482.6)
12 EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
ESIP Series Data Line Surge Protection
Introduction
The ESIP Series of Subminiature D interface protectors will ensure the reliable operation of parallel and serial devices such as printers and external modems, point-of-sale terminals, mainframes, dumb terminals, and most other devices using Subminiature D connectors which are sensitive to destructive transient energies. Standard applications include Ethernet, RS-232, RS-422 and LAN/WAN interfaces.
ESIPs Offer:
● State-of-the-art, avalanche diode and thyristor technology.● Compact, in-line installation.● High-speed, high-energy handling capability.● Low shunt capacitance to reduce signal loss.
You Receive:
● Affordable, superior, equipment protection.● Improved reliability and maximized system up-time.● Protection at the interface card.● Adaptability to most industry applications.
Transient surges can enter electronic equipment through any pathway provided and damage expensive communications hardware. If a facility has a reliable ac power protection system in place, transient surge energies can still be generated within a building by sources such as inductive load switching, ground loop currents, lightning and electrostatic discharge.
ESIP Series protectors combine compact enclosures with extremely fast response times of less than 5 nanoseconds. They are specifically designed to give added security to electronic devices sensitive to voltage rises or ground loop energies and have been particularly effective in areas prone to lightning activity.
Subminiature D (9,15 and 25 pin) interface connectors are available in configurations protecting all pins or specific pins as required.
All these features make Eaton’s ESIP protectors the most cost-effective and versatile devices of their kind available today.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
Ideal for Subminiature D Communication Ports
� Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OF THE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E ©Copyright 2006 13
Technical Data
TABLE 11. ESIP ELECTRICAL SPECIFICATIONS
TABLE 12. ESIP SYSTEM APPLICATION AND CATALOG NUMBERS �
� See Ordering Guidelines below.
Note: Special configurations available.
Note: All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note: Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example: EDB25-RS232 = EDB25RS232.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
RS-422/RS-423/RS-485 7.5 Volts 132 Amps < 5 Nanoseconds <30 pF
Parallel 7.5 Volts 132 Amps < 5 Nanoseconds <30 pF
RS-232 18 Volts 60 Amps < 5 Nanoseconds <30 pF
SERIES PINS PROTECTEDSTANDARD PINCONFIGURATIONS
RS-422/RS-423/RS-485 RS-232 ETHERNET PARALLEL
DB 9
Protects All Pins — EDB9-RS422 EDB9-RS232 — —
DB 15
Protects All 15 Pins(Unless Specified)
— EDB15-RS422 EDB15-RS232 EDB15-EN(Protects IEEE 802.3 Pins)AUI
—
DB 25
— 25-WireAll 25 Pins Protected
EDB25-RS422 EDB25-RS232 — EDB25-PARLL
— 4-Wire Pins (1), 2, 3, 7 & 20
— EDB425-RS232 — —
— 8-Wire Pins (1), 2, 3, 4, 5, 6, 7,8 & 20
— EDB825-RS232 — —
14 EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E Effective: September 2006
ETSP Series Data Line Surge Protection
Introduction
The ETSP Series of terminal strip protectors will ensure the reliable operation of networked equipment connected to RS-422, RS-232, Muxes, DDS, Analog Dial-up, ISDN, T1 and most other communication interfaces.
ETSPs Offer:
● State-of-the-art, avalanche diode and thyristor technology.● Compact, in-line installation.● High-speed, high-energy handling capability.● Low shunt capacitance to reduce signal loss.
You Receive:
● Affordable, superior, equipment protection.● Improved reliability and maximized system up-time.● Protection at the interface card.● Adaptability to most industry applications.
The ETSP Series devices will guard sensitive data networks against lightning induced surges, ac power interference, electrostatic discharge, and ground loop energies.
Typical applications include: data communications and instrumentation interfaces using RS-422, RS-232, Muxes, CSU/DSU, T1, PLCs, and most other communication interfaces.
When installed on the system I/O ports, ETSPs prevent equipment damage and system errors which are a common result of transient surge energies induced onto the communications interface and ground plane.
ETSPs utilize low capacitance avalanche diode arrays for low loss, high-speed protection. These field-proven circuits offer the most dependable protection available for today’s highly sensitive electronic systems.
Whether you need to protect a single communication line, or an entire installation, Eaton's protectors are an easy, cost-effective solution to overvoltage problems.
Installation
To install, insert the protector in series between the incoming communication line and the I/O port of the equipment to be protected. The protector ground wire must be connected to the metal chassis of the equipment being protected. Units should be installed at both ends of the data cable for the most effective protection.
Warranty
Eaton Corporation offers a standard 5-year warranty for data communications surge protection. For more information, visit www.EatonElectrical.com.
� Caution
GROUND WIRE MUST BE GROUNDED DIRECTLY TO THE METAL CHASSIS OF THE EQUIPMENT BEING PROTECTED. THE EQUIPMENT CHASSIS MUST BE CONNECTED TO EARTH THROUGH A PROPERLY GROUNDED AC POWER RECEPTACLE.
EATON CORPORATION Data Communication and Telecommunication Surge Suppression Technical Data TD01001002E ©Copyright 2006 15
Technical Data
TABLE 13. ETSP ELECTRICAL SPECIFICATIONS
TABLE 14. ETSP SYSTEM APPLICATION AND CATALOG NUMBERS �
� See Ordering Guidelines below.� With 6 terminals.� With 8 terminals.
Note: See Figure 6 below. Special configurations available.
FIGURE 6. ETSP CONNECTOR TYPE DIMENSIONS
Note: All specifications and dimensions are subject to change without notice.
Ordering Guidelines
Note: Do not include any dashes, brackets or hyphens in the catalog numbers when ordering.
Example: ETSP-2B-G = ETSP2BG.
UL is a federally registered trademark of Underwriters Laboratories Inc.
SPECIFICATIONSTANDARD CLAMP VOLTAGE
PEAK PULSE CURRENT (10/1000 US S.C. WAVEFORM AT VCL) RESPONSE TIME
MAXIMUM SHUNT CAPACITANCE
10Base-T Ethernet 7.5 Volts 132 Amps < 5 Nanoseconds <40 pF
RS-422, RS-485, RS-423 7.5 Volts 132 Amps < 5 Nanoseconds <40 pF
RS-232 or Digital 4 – 20 mA Current Loop
18 Volts 60 Amps < 5 Nanoseconds <40 pF
Analog 4 – 20 mA Current Loop 27 Volts 40 Amps < 5 Nanoseconds <40 pF
CSU/DSU, T1, DDS, ISDN (Fused) 60 Volts 50 Amps < 5 Nanoseconds <75 pF
Dial-up/Modem/Fax (Fused) 240 Volts 75 Amps < 5 Nanoseconds <95 pF
CONNECTOR TYPE
10BASE-T ETHERNET, RS-422, RS-485, RS-423
RS-232 OR DIGITAL 4 – 20 MA CURRENT LOOP
ANALOG 4 – 20 MA CURRENT LOOP
CSU/DSU, T1, DDS, ISDN (FUSED)
DIAL-UP/MODEM/FAX (FUSED)
2 Terminal Barrier Strip (Figure A) ETSP-2B-E ETSP-2B-T ETSP-2B-A ETSP-2B-B ETSP-2B-G
4 Terminal Barrier Strip (Figure A) ETSP-4B-E ETSP-4B-T ETSP-4B-A ETSP-4B-B ETSP-4B-G
6 Terminal Barrier Strip (Figure B) � ETSP-6B-E ETSP-6B-T ETSP-6B-A ETSP-6B-B ETSP-6B-G
8 Terminal Barrier Strip (Figure B) � ETSP-8B-E ETSP-8B-T ETSP-8B-A ETSP-8B-B ETSP-8B-G
10 Terminal Barrier Strip (Figure B) ETSP-10B-E ETSP-10B-T ETSP-10B-A ETSP-10B-B ETSP-10B-G
32 Terminal Barrier Strip (Not Shown) ETSP-32B-E ETSP-32B-T ETSP-32B-A ETSP-32B-B ETSP-32B-G
Figure A
Figure B
0.92 (23.4)
1.47 (37.3)
3.30 (83.8)
1.25 (31.7)
5.60 (142.2)
3.60 (91.4)
2 or 4 Positions 14 to 26 AwgPush Type Terminal Strips (Both Ends)
6.8 or 10 Positions 14 to 26 AwgPush Type Terminal Strips (Both Ends)
Eaton Electrical Inc.1000 Cherrington ParkwayMoon Township, PA 15108-4312United Statestel: 1-800-525-2000www.EatonElectrical.com
© 2006 Eaton CorporationAll Rights ReservedPrinted in USAPublication No. TD01001002E/ Z4782September 2006