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General Installation Manual 

 

General Installation Manual for SANYO 
HIT Photovoltaic Modules.  Please read 
this manual completely before 
installation or use of SANYO modules.  
This manual applies to the following 
products:   
HIT-H250E01, HIT-H245E01, 
HIT-H240E01, 
HIT-H250E02, HIT-H245E02, 
HIT-H240E02 
 
INTRODUCTION 

 

Thank you for choosing SANYO HIT 
photovoltaic (PV) modules. With proper 
operation and maintenance, SANYO HIT 
PV modules will provide you with clean, 
renewable solar electricity for many years. 
This manual contains important 
installation, maintenance and safety 
information. The word “module” as used in 
this manual refers to one or more PV 
modules.  Retain this manual for future 
reference.  

 
Disclaimer of Liability

 

SANYO does not assume responsibility 
and expressly disclaims liability for loss, 
damage, or expense arising out of, or in 
any way connected with installation, 
operation, use, or maintenance by using 
this manual.   
SANYO assumes no responsibility for any 
infringement of patents or other rights of 
third parties, which may result from use of 
modules.  
No license is granted by implication or 
under any patent or patent rights. The 
information in this manual is believed to 
be reliable, but does not constitute an 
expressed and/or implied warranty.  
SANYO reserves the right to make 
changes to the product, specifications, or 
manual without prior notice. 

 
General Information

  

The installation of solar modules requires 
a great degree of skill and should only be 
performed by qualified licensed 
professionals, including, without limitation, 
licensed contractors and licensed 
electricians.  
 

  

WARNING

 

 

All instructions should be read and 
understood before attempting to 
install, wire, operate, and maintain 
the photovoltaic module. Contact 
with electrically active parts of the 
module such as terminals can 
result in burns, sparks, and lethal 
shock whether the module is 
connected or disconnected. 

 

The installer assumes the risk of 
all injury that might occur during 
installation, including, without 
limitation, the risk of electric shock. 

 

PV modules generate DC electrical 
energy when exposed to sunlight 
or other light sources.  Although 

single modules produce only a low 
voltage and current, shocks and 
burns are still a potential hazard.   

 

To avoid the hazard of electric 
shock and injury, cover the entire 
front surface of the PV modules 
with a dense, opaque material such 
as a cardboard box, during 
installation and handling of the 
modules. 

 

The shock hazard increases as 
modules are connected in parallel, 
producing higher current, and as 
modules are connected in series, 
producing higher voltages. 

 

The shock hazard increases as

 

modules with nominal open-circuit 
voltage (Voc) in excess of 50 V, 
and/or modules rated for maximum 
system voltage in excess of 50 V. 

 

To avoid the hazard of electric 
shock, work only in dry conditions, 
with dry modules and dry tools. 

 

Do not stand or step on a module

 

to avoid the hazard of injury and

 

damage to the module. 

 

Do not puncture or damage the 
back sheet of a module, to avoid 
the hazard of electric shock and 
fire. 

 

To avoid the hazard of electric 
shock and injury, children and 
unauthorized persons should not 
be allowed near the installation of 
PV modules. 

 

To avoid the hazard of electric 
shock and injury, be sure to 
completely ground all modules. 

 

To avoid the hazard of electric 
shock, fire, and injury, do not 
disassemble the module, or 
remove any part installed by the 
manufacturer. 

 

Unauthorized persons—except the 
qualified licensed professional—
should not open the cover of the 
junction box to avoid the hazard of 
electric shock. 

 

 

Do not touch terminals while a 
module is exposed to light. Provide 
suitable guards to prevent yourself 
from direct contact with 30 VDC or 
greater to avoid the hazard of 
electric shock or injury. 

 

When carrying a module, two or 
more people should carry it by its 
frame and wear non-slip gloves (to 
avoid injury by a slipping module, 
to a foot, or cuts by the edge of a 
frame, and so on). 

 

Do not carry a module by its wires 
or junction box, to avoid the 
hazard of electric shock, injury or 
damage to the module. 

 

Do not drop anything on the 
surfaces of a module, to avoid the 
hazard of electric shock, injury, 
and damage. 

 

To avoid the hazard of electric 
shock and fire, be sure that all 
other system components are 
compatible, and they do not 
subject the module to mechanical 
or electrical hazards. 

 

Since sparks may occur, do not 
install the module where 
flammable gases or vapors are 
present. 

 

Never leave a module unsupported 
or unsecured.   

 

Do not drop a module.   

 

Do not use or install broken 
modules to avoid the hazard of fire, 
electric shock, and injury. 

 

Do not artificially concentrate 
sunlight on a module to avoid the 
hazard of fire or damage. 

 

Do not touch the junction box 
terminals to avoid the hazard of 
electric shock and injury. 

 

Do not change the wiring of 
bypass diodes to avoid the hazard 
of electric shock and injury. 

 

Do not disconnect terminals while 
PV modules generate electricity 
and connect electrical load to 
avoid the hazard of electrical 
shock. 

 

Do not touch a PV module 
unnecessarily. The glass surface 
and frames get hot. There is a risk 
of burn. 

 

  

CAUTIONS 

 

Use a module for its intended 
purpose only. 

 

Do not treat the back sheet or front 
surface with paint or adhesives, to 
avoid reducing its’ functionality, 
damage, inoperable conditions, 
and other unknown troubles. 

 
GENERAL SAFETY

  

Follow all permission, installation and 
inspection requirements.  

 

Before installing modules, contact the 
appropriate authorities to determine 
permissions, installation and 
inspection requirements, which 
should be followed.  

  Be sure that the construction or 

structure (roof, etc.) where the 
modules are being installed has 
enough strength.  

  For modules mounted on roofs, 

special construction or structures may 
be required to help provide proper 
installation support.   

  Both roof construction and module 

installation design have an effect on 
the fire resistance of a building. 
Improper installation may contribute 
to fire hazards.  Additional devices 
such as ground fault, fuses, and 
disconnects may be required.  

Summary of Contents for HIT-H250E01

Page 1: ...damage to the module Do not puncture or damage the back sheet of a module to avoid the hazard of electric shock and fire To avoid the hazard of electric shock and injury children and unauthorized persons should not be allowed near the installation of PV modules To avoid the hazard of electric shock and injury be sure to completely ground all modules To avoid the hazard of electric shock fire and i...

Page 2: ...Representative with questions regarding mounting profiles for modules if needed Notes on Installation Clearance of 10 cm between the roof surface and module frame is required to allow cooling air to circulate around the back of the module This also allows any condensation or moisture to dissipate Install modules so that air can circulate between the roof and the module We recommend installation me...

Page 3: ...des If these modules are connected each other incorrectly the bypass diodes cable or junction box may be damaged Array Wiring The term array is used to describe the assembly of several modules on a support structure with associated wiring Use copper wire that is sunlight resistant and is insulated to withstand the maximum possible system open circuit voltage Check your local codes for requirements...

Page 4: ...ine detergent and strong acid detergent to clean any part of the module It is also recommended to inspect the electrical and mechanical connections annually If you need electrical or mechanical inspection or maintenance it is recommended to have a licensed authorized professional carry out the inspection or maintenance to avoid the hazards of electric shock or injury The return of any modules will...

Page 5: ...pe HIT HIT HIT Maximum System Voltage Voc V 1000 1000 1000 Maximum over current protection rating A 15 15 15 Factory Installed Bypass Diodes 3 3 3 HIT Hetero junction with Intrinsic Thin layer Mechanical Specifications Model HIT H250E01 HIT H250E02 HIT H245E01 HIT H245E02 HIT H240E01 HIT H240E02 Length mm Width mm Height mm Weight kg 16 5 Electrical Specifications 861 1610 35 Figure 2 1 Dimensions...

Page 6: ...r less Dimension in mm Figure 2 3 Optional Mounting Range Note Fixing span is 1050mm or less Optional Mounting Range P V U B 5 0 2 Figure 3 Configuration of Junction box Negative Positive Cable Connector MC Plug Figure 4 Number of series cells per bypass diode 1 st Block 96cells diode 3 rd Block 96cells diode 2 nd Block 48cells diode ...

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