OSRAM POWERTRONIC PT-FIT I ECG for HID lamps, with cable clamp User Manual

STANDARDS, QUALITY MARKS AND CE LABELING

The limit specifi ed for conducted interference for use with
the CDN procedure is comparable with the limit for radia-
ted interference and provides adequate protection to radio
services using the frequency range of 30 to 300 MHz.

Conformity with the standard is a precondition of granting
the VDE-EMC mark and for CE conformity.

EN 55022
"Information technology equipment – Radio disturbance
characteristics – Limits and methods of measurement"

The EN 55022 standard describes the procedure for mea-
suring the level of interference signals that may be created
by information technology equipment facilities, and sets
out limits for the frequency range from 9 kHz to 1 GHz.

The standard does not apply to ECGs.

EN 61547
"Equipment for general lighting purposes. EMC inter-
ference resistance requirements"

The EN 61547 standard sets requirements for the electro-
magnetic interference resistance of lighting equipment;
it does so both for connection to the low-voltage network
and for battery operation.

The regulation includes requirements for ECG immunity
against the following external disturbing infl uences:
Static electrical discharge, high frequency and network
frequency electromagnetic fi elds, fast transients, current
inputs, surge currents/voltages, voltage drops and inter-
ruptions, voltage fl uctuations.

Conformity with the standard is a precondition of granting
the VDE-EMC mark and for CE conformity.

EN 61000-3-2
"Electromagnetic compatibility (EMC) – Part 3-2:
Limits – Limits for harmonic current emissions (equipment
input current ≤ 16 A per phase)"

The EN 61000-3-2 standard applies to the limitation of the
amount of harmonic currents that may be introduced into
the public low-voltage network. It sets limits to the harmo-
nic current component of input current that may be gene-
rated by a device equipment or facility, which is tested
under specifi ed conditions.
Different limits and testing methods are valid for lighting
installations with an effective input power up to 25 W or
greater than 25 W.

Conformity with the standard is a precondition of granting
the VDE-EMC mark and for CE conformity.

36

EN 61000-3-3
"Electromagnetic compatibility (EMC) – Part 3-3: Limits -
Limitation of voltage changes, voltage fl uctuations and
fl icker in public low-voltage supply systems, for equipment
with rated current up to 16 A per phase and not subject to
conditional connection"

The EN 61000-3-3 standard applies to the limitation of the
amount of voltage fl uctuations and fl icker that may be
caused into the public low-voltage network. It sets out
limits for changes in voltage that may be generated by
devices and systems, which are tested under specifi ed
conditions, and gives information about calculation
pro cedures.

Conformity with the standard is a precondition of granting
the VDE-EMC mark and for CE conformity.

EN 62386 (for PTo devices only)
This standard describes the DALI

®

industry standard and

sets out a protocol and a testing procedure for the control
of electronic control devices with digital signals for pur-
poses of illumination. The tests described in this draft
standard are type approval tests. Requirements for the
testing of individual control gears during production are
not included.

An overview of the DALI

®

standard:

• All control gears must conform to Part 102.
• A single operating device may belong to more than one

device type (see Part 100, 200, 300).

• Specifi c commands and properties are defi ned and

described in the Parts numbered 2xx.

Digital Addressable Lighting Interface Standard

Part 100: General
requirements

Part 200: Special
requirements for
control gears

Part 300: Special
requirements for
controllers

Part 101: System

Part 201: Fluorescent
lamps

Part 301:
SML description

Part 102: Control gear

Part 202: Emergency
lighting

Part 302:
3-byte protocol

Part 103: Controllers

Part 203: Discharge
lamps (HID)

Part 204: Low-voltage
halogen lamps

Part 205: Incandescent
bulbs

Part 206: Conversion
of a digital signal to DC
voltage

Part 207: LED modules

Part 208: Switching
function

Part 209: Color and color
temperature control

Part 210: Sequencer

Part 211: Optical control