2
Technical Data 10515
Effective February 2016
0603ESDA-MLP
ESD suppressor
www.eaton.com/elx
Product specifications
Part number
4
Rated
voltage
(V
DC
)
maximum
Clamping
voltage
1
(V) typical
Trigger
voltage
2
(V) typical
Capacitance
@ 1 MHz (pF)
typical
Capacitance
@ 1 MHz (pF)
maximum
Attenuation
change (0–6
GHz) (dB)
typical
Leakage
current @
12 V
DC
(nA)
typical
ESD
capability
IEC61000-4-
2 Direct
discharge
(kV) typical
ESD
capability
IEC61000-4-
2 Air
discharge
(kV) typical
ESD pulse
withstand
3
typical
0603ESDA-MLP 30 35 300 0.05 0.15 -0.2 <0.1 8 15 >1000
1. Clamping voltage: Per IEC61000-4-2, Level 4 waveform (8 kV direct 30 A) measured 30 ns after initial
pulse.
2. Trigger voltage: Trigger measurement made using Transmission Line Pulse (TLP) method.
Dimensions—mm [in]
3. Minor shifting in characteristics may be observed over multiple ESD pulses at very rapid rate.
4. Part Number Definition: 0603ESDA-MLP
0603ESDA= Product code and size
-MLP= Form designation
Design considerations
The location in the circuit for the 0603ESDA-MLP has to be carefully determined. For better performance, the device should be placed
as close to the signal input as possible and ahead of any other component. Due to the high current associated with an ESD event, it is
recommended to use a “0-stub” pad design (pad directly on the signal/data line and second pad directly on common ground).
Environmental data
Operating temperature: - 55 °C to +125 °C
Storage temperature (component): - 55 °C to +125 °C
Load humidity: 12 VDC per EIA/IS- 722 +85 °C, 85% relative humidity for 1 000 hours
Thermal shock: 10 cycles, - 55 °C to +125 °C, 30 minute dwell time
Moisture resistance: MIL-STD-202G, method 106G, 10 cycles
Mechanical shock: EIA/IS- 722 paragraph 4.9
Mechanical vibration: EIA/IS- 722 paragraph 4.10
Resistance to solvent: EIA/IS- 722 paragraph 4.11
