Specifications
Table Of Contents
- Contents
- Tables
- Figures
- 1 Introduction
- 2 Interface Characteristics
- 2.1 Application Interface
- 2.2 RF Antenna Interface
- 2.3 GNSS Interface
- 2.4 Sample Application
- 3 Operating Characteristics
- 3.1 Operating Modes
- 3.2 Power Up/Power Down Scenarios
- 3.3 Power Saving
- 3.4 Power Supply
- 3.5 Operating Temperatures
- 3.6 Electrostatic Discharge
- 3.7 Blocking against RF on Interface Lines
- 3.8 Reliability Characteristics
- 4 Mechanical Dimensions, Mounting and Packaging
- 5 Regulatory and Type Approval Information
- 6 Document Information
- 7 Appendix
Cinterion
®
EXS62-W/EXS82-W Hardware Interface Description
5.1 Directives and Standards
128
t EXS62-W_EXS82-W_HID_v01.200ee 2022-09-07
Public/ Released
Page 124 of 144
Hazardous Substances,
Chemical reaction
-- Under regular conditions, the Cinterion
®
module
does not contain any chemically reactive sub-
stances, and no chemical energy source, espe-
cially no battery.
Module is compliant with RoHS and REACH (see
above).
In very rare cases however - under abnormal con-
ditions (i.e. wrong supply voltage, burned module)
or in the presence of single electrical component
faults (i.e. shortcut) - health hazardous sub-
stances might be released if the worst comes to
the worst.
Kinetic / mechanical energy
source
MS-1 The Cinterion
®
modules have no sharp edges and
corners, no moving parts, no loosing, exploding or
imploding parts.
The mass is well below 1kg.
Thermal energy source TS-2 Under normal operating conditions, abnormal
operating conditions or single fault conditions the
temperature does not exceed +100°C on the
metal surface (shielding)
Radiated energy source RS-1 The Cinterion
®
module does not contain a radiant
energy source, any lasers, lamps, LEDs, X-Ray
emitting components or acoustic couplers.
Table 38: IEC 62368-1 Classification
Source of Energy Class Limits