EHA-L37AN1-R02-L1 or EHA-L50AN1-R02-L1
MECHANICAL DRAWING
A
B
Model Number
(mm) (mm)
9.5
41.0
44.0
EHA-L37AN1-R02-L1
EHA-L50AN1-R02-L1
12.7
Dimensions are in Millimeters
Poor Orientation
Ideal Orientation
Good Orientation
Acceptable Orientation
INSTALLATION:
Assembly should be mounted to hot fluid line using the
provided mounting brackets and M 3 bolts with
IMPORTANT NOTE:
Output from the EHA-LXXAN1-R02-L1 is strongly a
function of heat source, ambient temperature, and
a
maximum torque of 5.0 in-lbs. A layer of graphite has
been adhered to the pipe mounting surface on the EHA-
LXXAN1-R02-L1 to ensure a good thermal contact
between the mounting pipe and the EHA assembly.
Performance will vary greatly with ambient conditions.
For best results, insulate the fluid line feeding into the
assembly and mount assembly in ideal orientation as
electrical load downstream of the converter.
Data
given on this sheet is representative of typical system
performance under steady-state flow and thermal
conditions and is intended for selecting the appropriate
EH series assembly. The data should not be taken as
comprehensive or representative of every operating
condition. For further information about or questions
regarding the EHA-LXXAN1-R02-L1, please contact a
Marlow applications engineer.
shown.
During installation, observe precautions for
handling electrostatic sensitive devices.
CONTENTS:
1 EHA-LXXAN1-R02-L1 Assembly, 1
Wire Harness
AVAILABLE MODIFICATIONS
Marlow can custom design the EH system to maximize power
output, or to meet size, form factor, or temperature
OPERATION CAUTIONS:
constraints for any thermal energy
harvesting application. In
For maximum reliability, continuous operation below
85°C is recommended. Do not attempt to disassemble
without contacting a Marlow engineer. Doing so could
result in permanent damage to the TG or other system
components.
special cases, Marlow can customize units to accommodate
alternating temperature difference or a reverse temperature
difference. Contact an application engineer for more
information.
DOC # 102-0390 REV 3 - PAGE 2 OF 4