VWL installation and user manual
Contents
1. VWL 24 Compliance EASA CS 23 EASA CS VLA UK CAA CAP 747 GR 6 UK CAA CAP 562 leaflet 11 10 Weight Approx 20 grams Dimensions H x W x D Approx 18 x 24 x 55 mm Altitude range 1 000 Ft up to 30 000 Ft Operating temperature 25 C to 55 C Operating voltage 3 to 40 Volt Low voltage warning On below 12 5 Volt On below 25 0 Volt Off above 13 0 Volt Off above 25 5 Volt High voltage warning On above 16 0 Volt On above 32 0 Volt Off below 15 5 Volt Off below 31 0 Volt Current normal 2 3 mA 3 0 mA Current maximal 18 mA 20 mA e Note The JP Avionics VWL has been tested from 1 000 Ft up to 30 000 Ft Please note that this is cabin altitude range not aircraft altitude range Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT INSTALLATION Follow the guidelines below for installation The installation must be carried out by or under supervision of an appropriate qualified person or company Prior to installation of this modification it must be determined that the installation that the interrelationship between this modification and any other previously installed modification s and or repair s will not introduce an adverse effect of the airworthiness of the aircraft Select a suitable location The VWL must be located within the normal scanning view of the pilot Mark the centre and check whether the annunciator does fit without interfe2. warning trigger and reset voltages Changes Rev 1 Added first paragraph on installation chapter installer s responsibilitv Changed compass safe distance from as referred to 10 cm or 4 Added wiring diagram Changed securing wiring paragraph Changed calculating remaining battery capacity paragraph Rev 2 Added instruction for non metal structure aircraft Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT INTRODUCTION The JP Avionics VWL is a high and low voltage warning light for installation in all aircraft with either a 12 Volt DC bus or 24 Volt DC bus The warning light meets the requirements of EASA Part 23 and CS VLA for such a warning light In addition the warning light meets the requirements with respect to the mandatory low voltage warning light for aircraft registered in the United Kingdom UK CAA CAP 747 GR 6 previously issued as Airworthiness Notice No 88 and UK CAP 562 leaflet 11 10 previously issued as Airworthiness Information Leaflet No 0130 describe when such an low voltage light is mandatory on an both UK registered EASA aircraft and UK registered annex II aircraft Note UK CAA CAP 747 GR 6 and CAP 562 leaflet 11 10 only describe a low voltage warning light The JP Avionics VWL is both a low AND high voltage warning light Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT WORKING PRINCIPLE So what is the difference with the stock warning light on a lot of aircraft Firs
3. B is negligible There is no maintenance required for continued airworthiness The VWL had been designed to allow on condition maintenance This means that there are no periodic service requirements necessary to maintain continued airworthiness and no maintenance is required until the VWL does not properly perform it s intended function If the unit fails the self test on power up contact supplier or installer Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT WIRING DIAGRAM CB lAmp Main Bus 1224W Notes Do not connect to avionics bus Da nat cut wiring between YWL Control and Lamp unit Typical Installation Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT USER GUIDE The VWL user interface consists of an annunciator with integrated push button The voltage warning light has five different operating modes Self test Normal Low voltage High voltage Press to test When power is applied to the aircraft buss the VWL will go into self test mode The light will flash slowly twice followed by two quick flashes This is to test the LED inside the annunciator and to familiarize the user with the low voltage warning and the high voltage warning After a successful self test the unit will go into the normal monitoring state It will measure the voltage constantly When the voltage is within limits the light will extinguish and stay extinguished as long as the voltage
4. ING LIGHT A Flashing warning light is installed which will illuminate if the generator alternator output reduces to a level where the batterv supplies power to the bus bar or when there is a high voltage situation which could lead to damage of equipment Before engine start Check that the self test is carried out After the self test and before start the warning light should flash slowlv After engine start Check that the warning light is OFF If LOW Voltage warning illuminates during flight flashing slowlv Cross check with other instruments if installed Reduce electrical load Remaining battery duration approx eee minutes Land as soon as practical NOTE Warning may illuminate with low engine rpm Check it goes out when rpm increased If HIGH Voltage warning illuminates during flight flashing quickly Cross check with other instruments if installed Switch off alternator generator Reduce electrical load Remaining battery duration approx ees minutes Land as soon as practical The limitations and information contained herein either supplement or in the case of conflict override those in the flight manual 12
5. JP AVIONICS VOLTAGE WARNING LIGHT INSTALLATION MANUAL Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT CONTENTS CONTENTS 2 PREFACE 3 INTRODUCTION 4 WORKING PRINCIPLE 5 SPECIFICATIONS 7 INSTALLATION 8 WIRING DIAGRAM 10 USER GUIDE 11 JP Avionics 2009 2010 All rights reserving no part of this installation manual may be reproduced copied or transmitted for any purpose without the express written permission of JP Avionics JP Avionics hereby grants permission to download print or copy for personal use provided that such copy of this manual must contain the complete text including this copyright Any unauthorized commercial distribution of this manual is strictly prohibited JP Avionics reserves the right to change or improve it s products and or manuals without obligation to notify any person or organization of such changes Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT PREFACE Purpose This manual describes the physical and electrical specifications of the JP Avionics VWL Voltage Warning Light This manual is intended for installers and shall be read and understand before installation of the JP Avionics VWL Installation shall be carried out or supervised by a qualified person or company Scope This manual describes the install the of the JP Avionics VWL 12 and JP Avionics VWL 24 voltage warning light In this manual we will call them both VWL as they are identical except for the
6. ed to DC voltage and supplied to the batterv The warning light will illuminate when The regulator doesn t supply field current or has a broken field wire The rotor coil or all stator coils are broken The alternator isn t turning due to sloppy or broken belt Disadvantage This kind of warning systems are already better however the warning light will not illuminate if The alternator has LOW output due to defective internal parts The alternator positive or ground wire is broken You overload the alternator and the battery supplies power to the loads draining the battery You have a high voltage situation due to a defect voltage regulator Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT WORKING PRINCIPLE Cont d Measure voltage drop over a shunt or diode Known to be used on single engine Piper aircraft oO000 0 e O O Working principle A serviceable alternator or generator and control unit will supply current to the bus bar when the engine is used Voltage can be measure over a shunt or diode The voltage drop measured is an indication of the current supplied by the alternator The warning light will illuminate when The voltage regulator doesn t supply field current or broken field wire The rotor inside the alternator is broken All stator windings are broken The alternator isn t turning due to a sloppy or broken belt The positive wire is broken Disadvantage This kind or warn
7. ing system is even better however the warning light will not illuminate if The alternator has LOW output due to defective internal parts You overload the alternator and the battery supplies power to the loads You have a high voltage situation due to a defect regulator Measure the bus voltage This is the method used by the JP Avionics VWL 0000000 0 e Working principle Bv measuring the bus voltage it is know if the alternator or generator delivers enough voltage to supply all equipment AND charge the batterv It does not have anv of the disadvantages the other methods have The warning light will illuminate if The voltage regulator is inoperative or out of tolerance Partially defect alternator leading to low output Full defect alternator or generator Broken or sloppy alternator or generator belt Broken or short alternator or generator wiring Broken alternator or generator circuit breaker You overload the alternator or generator The battery instead of alternator generator supplies power to the loads You have an high voltage situation due to no or defective over voltage protection Disadvantage None Measuring the bus voltage is by far the best operating principle for both generator and alternator low and high voltage warning systems JP Avionics VWL will warn you before you drain your battery Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT SPECIFICATIONS Product VWL 12
8. rator is switched on Date 26 11 2010 Rev 2 JP AVIONICS VOLTAGE WARNING LIGHT INSTALLATION Cont d Calculating remaining battery capacity after a low voltage warning might be mandatory due to local regulations It s the installers responsibility to check with your local authorities If not mandatory we still encourage you to calculate the remaining battery capacity This calculation can be made using the example below as a guideline e Check the nameplate capacitv of the batterv and assume 7290 is available e g 12 Ah 720 Amp mins 0 72 720 518 4 Amp mins available Estimate the normal cruise electrical power consumption Assuming 5 minutes for the pilot to shed essential load following the low voltage warning e g 15 Amps 5 mins 75 Amp mins Estimate the minimum cruise load needed to maintain flight after the generator alternator has failed e g 10 Amps Estimate the electrical power consumption required during the approach and landing e g 20 Amps 5 minutes 100 Amp mins Calculate remaining capacity Battery capacity Normal load landing load Essential load e g 518 4 75 100 10 This results in 34 3 minutes for this example Total flight duration is 5 minutes load shedding 34 3 minutes essential cruise 5 minutes for approach and landing There will be 44 3 minutes of electrical power available Add supplement to POH and make user guide available for flight crew Change in W8
9. rence Check distance to the compass is equal or more than 10 cm or 4 Make sure the location you ve selected is not an essential part of the aircraft structure Drill a hole for the annunciator It should measure 16 2 mm or 5 8 Deburr the hole Install the warning light from the front side of the panel Connect the black wire to a proper electrical bus ground Note Not every bolt or screw is a proper ground Make sure you use a proper ground point Connect the red wire to the main bus via a circuit breaker or fuse If the VWL is the only means of checking the alternator or generator output you MUST use a dedicated 1 Amp circuit breaker which can be reset during flight Mark the function of the circuit breaker If you use the VWL as additional equipment you can share a circuit breaker or fuse with non essential equipment only this fuse or circuit breaker should be rated 3 Amp maximum As additional equipment it is also possible to use an inline 1 Amp fuse Secure the wiring using approved methods as described in AC 43 13 1B Do NOT secure wiring to moving parts Check your installation make sure all controls can move freely Switch on the battery The VWL will flash twice slowly and twice quickly to show both warning methods If the engine isn t running it will go into low voltage mode next and flash slowly Check that the warning light goes out when the engine is started and the alternator or gene
10. stays within limits When the voltage drops below to a point where the battery starts to supply the bus bar the unit with switch over to low voltage mode In this mode the annunciator will flash slowly with a frequency of 60 flashes per minute to attract the attention of the flight crew The flight crew can acknowledge the warning by pressing the annunciator faceplate The warning light will transfer from a flashing output to a steady output The warning light will automatically reset when the voltage comes back up to an acceptable level where it can charge the battery and power the load When the power output has such a high level that there is a risk of damaging the battery and the equipment and high voltage warning will occur During the high voltage warning the annunciator will flash quickly with a frequency of 160 flashes per minute to attract the attention of the flight crew The flight crew can acknowledge the warning after 20 flashes by pressing the annunciator faceplate The warning will go from flashing to steady illumination The warning will reset automatically when the voltage drops within limits When the annunciator is depressed in normal mode the annunciator will illuminate until released Date 26 11 2010 Rev 2 11 JP AVIONICS VOLTAGE WARNING LIGHT ADDITIONAL LIMITATIONS AND INFORMATION FOR CERTIFICATION Pilot s Operating Handbook Reference eens tees Air raft Type bi biki a u ed EE VOLTAGE WARN
11. t of all it s important to understand which principle is used to understand the consequence Measure if the voltage regulator gets bus voltage Known to be used on 12 Volt Cessna aircraft oOo000 0 e Working principle A serviceable alternator can generate output if it turns within the correct speed range and receives field current controlled bv the regulator If the voltage regulator doesn t receive batterv voltage it is not able to deliver field current and thus the alternator won t generate output Disadvantage In the situation described above the warning light will illuminate The warning light will however not illuminate if The alternator has NO or LOW output due to defective internal parts The alternator isn t turning due to sloppy or broken belt Any of the alternator wires are broken The voltage regulator is internally defective You overload the alternator and the battery supplies power to the loads draining the battery You have a high voltage due to a defect regulator common problem A over voltage protection and VWL could protect your precious avionics Measure if the stator delivers voltage Known to be used on multi engine aircraft e Working principle Serviceable alternators will generator power when they turn within the correct speed range and receive field current from the regulator The field current and turning makes induction in the stator coils possible This AC voltage is rectifi
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