Table Of Contents
Standards Compliance
ATM UNI
ATM Standards Organization
SONET
Safety
Environmental
EMC-Emissions
EMC-Immunity
Electromagnetic Compatibility and Immunity
Standards Compliance
This appendix lists the standards with which the Cisco MGX 8950 system complies. First, it lists the applicable standard for an individual technology, card, or module.
ATM UNI
The ATM specifications for the User-Network Interface with which the MGX 8950 complies are as follows:
•
ATM Forum—ATM UNI, V3.1, 1995.
•ITU Recommendation I.361—B-ISDN ATM Layer Specification, March 1993.
•ITU Recommendation I.371—Traffic Control and Congestion Control in B-ISDN, March 1993.
•ITU Recommendation I.432—B-ISDN User Network Interface—Physical Interface Specification, March 1993.
•ITU Recommendation I.610—B-ISDN Operation and Maintenance Principles and Functions, Specification, November 1995.
•ITU Recommendation G.782—Types and General Characteristics of Synchronous Digital Hierarchy (SDH) Equipment, January 1994.
•ITU Recommendation G.783—Characteristics of Synchronous Digital Hierarchy (SDH) Equipment Functional Blocks, January 1994.
•ITU Recommendation G.832—Transport of SDH Elements on PDH Networks: Frame and Multiplexing Structures, November 1993.
•ITU Recommendation G.958—Digital Line Systems based on the Synchronous Digital Hierarchy for use on Optical Fibre Cables, November 1994.
ATM Standards Organization
The ATM Forum specifications to which the MGX 8950 system complies are as follows:
•ATM Forum B-ICI Specification, V1.0, August 1993
•ATM Forum—Traffic Management Specification, V4.0, June 1995
•B-ICI v1.0
•B-ICI v2.0 (integrated)
•B-ICI v2.0 (addendum)
•DXI v1.0
•ILMI v3.1
•LANE over ATM v1.0
•LANE Client Management
•LANE v1.0 addendum
•LANE Servers Management v1.0
•LANE v2.0 LUNI Interface
•MPOA v1.0
SONET
The standards and responsible organizations with which MGX 8950 SONET technology complies are as follows:
•Bell Communications Research—SONET Transport Systems: Common Generic Criteria, GR-253-CORE, Issue 2, 1995.
•Bell Communications Research—Broadband Switching System Generic Requirements, GR-1110-CORE, Issue 1, Sept. 1994.
•Bell Communications Research—ATM and ATM AAL Protocols, GR-1113-CORE, Issue 1, July 1994.
•Bell Communications Research—Generic Requirements for Operations of Broadband Switching Systems, GR-1248-CORE, Issue 2, Rev 1.
•ANSI T1.105—Digital Hierarchy—Optical Interface Rates and Formats Specifications (SONET), 1991.
•ANSI T1.231—Digital Hierarchy—Layer 1 In-Service Digital Transmission Performance Monitoring (SONET), 1993.
Safety
The MGX 8950 enclosure meets all applicable regulatory agency Product Safety requirements:
•UL 1950, Third edition (Standard for Safety, Information Technology Equipment, Including Electrical Business Equipment). UL component recognition with follow up is required.
•CSA C22.2-#950-M95, (Standard for Safety, Information Technology Equipment, Including Electrical Business Equipment). UL or CSA certification with follow up is required.
•EN 60 950 (Safety of Information Technology Equipment Including Electrical Business Equipment). IEC/EN certification with follow up is required and may be obtained from TUV Rheinland, VDE or other approved European Test Laboratory.
•Austel-Safety Requirements for Customer Equipment. (Including AS3260, Safety of Information Technology Equipment)-Australia.
•All secondary circuits will meet Safety Extra Low Voltage (SELV) requirements, as
described by IEC 950, EN 60 950, UL1950 and CSA C22.2-#950.
•41003 (European Product Safety Standard for Telecommunications Equipment).
Environmental
The environmental standards to which the Cisco MGX 8950 system is designed are Bellcore NEBS, GR-63-CORE, and ETSI ETS 300019.
EMC-Emissions
The Cisco MGX 8950 chassis and enclosure are designed to meet all applicable regulatory agency EMC requirements (Class A EMI):
•FCC Part 15, subpart J or EN 55022, Class A for radiated and conducted emissions.
•EMC Directive 89/336/EEC EN 55022, Class A, for radiated and conducted emissions.
•Austel AS 3548, Class A, for radiated and conducted emissions.
•Japan VCCI, Class A, for radiated and conducted emissions.
•Canada (DOC) FCC part 15 subpart J, Class A.
•Bellcore NEBS GR-1089-CORE, Class A.
EMC-Immunity
The Cisco MGX 8950 system is designed to meet the following standards:
•EN50082-1, Generic Immunity and Susceptibility Standard
•EN61000-4-2 ESD, Level 4
•EN610000-4-3, Radiated Susceptibility, Level 3
•EN61000-4-4, Electrical Fast Transients, Level 4
•EN61000-4-5, Surge/Lightning Simulation, Level 2
•ETSI 300 386.1, Power Surge (200-1000VAC) DC power leads
Electromagnetic Compatibility and Immunity
This section lists the national and international standards for electromagnetic compatibility and immunity to which this Cisco product complies. It consists of a list of reference documents, a table that indicates applicability of the standards, and the test levels for mandatory and non-mandatory CE mark immunity.
The applicable standards for electromagnetic compatibility and immunity:
•NEBS Systems Requirements (GR-1089-CORE).
•EN 55022 (EMC Directive 89/336/EEC).
•EN 50081-1 and EN 50082-1 (Generic Immunity Requirements), International Electromechanical Commission (IEC 1000-4-2 through IEC 1000-4-5 / European Norm designation EN 61000-4-2 through EN 61000-4-5.
•European Telecommunication Standards Institute (ETSI) ETS 300 386-1.
Details on how each standard applies in this Cisco product appear in Table C-1.
Table C-1 Electromagnetic Compatibility and Immunity
Category
|
Requirement
|
USA EMC
|
FCC Part 15, Class A
|
Japan EMC
|
Austel 3548, Class A
|
Australia EMC
|
VCCI Class A
|
CE mark
(EMC and immunity)
|
EMC: EN 55022 Class A
Immunity:
•EN 50082-1 (generic immunity)
•EN 61000-4-2 through -5
|
NEBS
(EMC and immunity)
|
EMC:
GR-1089-CORE Class A (radiated and magnetic fields) and line conductance
Immunity:
GR-1089-CORE ESD (8 KV contact)
RS (10V/m)
CS (clause 3.3.3)
European Telecom Standards (ETSI) for Surge: ETSI 300 386-1, DC power leads only
(200 VAC-1000 VAC)
|
The levels for the mandatory CE mark immunity tests are as follows:
•For IEC 1000-4-2 (ESD), the test level is 4.
•For IEC 1000-4-3 (RS), the test level is 3.
•For IEC 1000-4-4 (EFT), the test level is 4.
•For IEC 1000-4-5 (Surge), the test level is 3.
