1 - Cycloboost
Contents
1. out of the battery pack One watt hour is 1 1000th of a kWh and slightly less than one food calorie To a first approximation the watt hours available from a battery should be equal to the voltage of the pack multiplied by its amp hours but it will typically be less than this because of voltage droop caused by large current draw Notice that only the positive watt hours pulled from the pack are recorded During regenerative braking when the watts are negative the watt hours value does not decrease Wh km or Wh mi The watt hours used per unit of distance travelled is a measure of the average energy efficiency of your vehicle With this figure you can readily quantify how different riding styles impact your range and predict with high accuracy the expected travel distance with any particular battery pack The Wh km or Wh mi figure is calculated taking into account current that may have flowed back into the battery pack from regenerative braking The actual formula used is Wh FwdAh RegenAh _1_ Dist Wh FwdAh Dist In order to reduce computational round off errors the figure only displays after a total distance of 0 5 km or mi has been travelled 4 2 Display Screen 4 Regenerative Braking The next screen shows information that pertains to negative current that is current flowing into the battery pack Regen The percent regen indicates by how much your range was extended as a result of energy returned to the battery2. 3 299 47 49 13 22 16 41 8 9175 3 302 47 43 13 45 17 30 8 9220 3 306 47 85 6 02 17 52 8 9268 3 308 49 36 1 43 17 17 8 9317 3 8 307 49 55 3 69 16 05 9365 The data is at 0 5V CMOS voltage levels making it easy to interface directly to other microcontrollers In order to log the data to a regular computer or laptop it is necessary to either level shift the signal to be compatible with RS 232 voltages and run it to the computer serial port or process the signal and connect it via USB IrDA BlueTooth or other standard For running into a computer serial port a MAX232 or a similar RS 232 driver chip can be powered from the 5V and G pads The resulting datastream can be seen and saved with HyperTerminal or other terminal software The following diagram shows a typical setup CA PCB 0 V G G Tx Vi 5V rate ram F gene Pasil aao HOPPO 16 C1 Vcc Vst C1 D a alo gt C Serial port on PC 9 2 On the fly Current or Speed Limit V2 11 and later There are situations where it may be desirable to adjust the speed or current limit of the Cycle Analyst without having to change the settings in the setup menu This can be accomplished by wiring a potentiometer such that it sends a voltage signal to the Vi pad CA PCB R2 2K7 V GG Tx Vi 5V OOOG The optional resistor R2 is used to reduce the potentiometer w
3. Analyst 8 5 Volts Sense Changing this value will change the scaling of the battery voltage displayed on the screen This value can be modified either for calibration or to display a voltage that is proportionally higher or lower than the voltage powering the Cycle Analyst The calibrated value is close to 31 0 while 350V modified boards will be closer to 70 V V 8 6 Set Poles For Direct Plug in units this should be set to the number of hall effect transitions per rotation of the wheel Crystalyte 400 series hubs have 8 the 5300 series hubs have 12 and the Nine Continent 205 series motors have 23 poles For units that use a speedometer sensor and spoke magnet poles should be set to 1 unless you have multiple magnets on the wheel The poles setting can range from 1 99 8 7 PSGain Default 0 08 This is the Proportional Speed Gain for the over ride output It can decrease the response time and reduce overshooting the set point speed but at the risk of causing rapid vibrations if it is too high The range can vary from 0 to 0 99 V kph or V mph 8 8 IntSGain Default 200 This value determines how rapidly the over ride output will ramp down when the speed of the vehicle exceeds the limit speed Increasing this value will speed up the response time for the speed control but at the risk of causing oscillations Too low of a value will allow considerable overshoot of the speed limit The gain value can range from 0 to 999 and the
4. showing Amin Amax and Vmin The message PEAK STATS RESET will appear on the screen and only the previously mentioned values will be cleared 5 2 Full Reset When it is time to switch battery packs then the battery cycle count lifetime amp hours and total distance can be zeroed by performing a full reset on the system This is accomplished by continuing to hold the button for 6 seconds after RESET is displayed The message FULL RESET will appear to indicate that all stored data has been cleared from memory Notice that a Full Reset does not restore any of the gain or calibration values that may have been changed in the setup menu The default values for these are shown in Section 8 6 Setup Menu There are many setup options that can be accessed at any time by pressing and holding down the left button Alternately if only a single button interface is desired then holding the right button while power is applied to the device will also enter the setup menu Hold Left Button for SETUP r 2 Seconds Once entered navigate through the setup options in the following manner Hold Right Button while Turning On Press either button briefly to toggle the information at hand like up and down arrow keys Hold the right button down for one second to save thatinformation or to enter a submenu like an enter key 6 1 Selectyour units The first setup option is to ch
5. that the vehicle is in motion and stops incrementing once the speed falls to zero 4 4 Display Screen 7 Lifecycle Statistics The final display screen provides the lifetime information of the battery pack These figures are especially useful in computing the lifecycle costs of the vehicle and comparing the economics of different battery chemistries This display is not shown when the vehicle is in motion Cycl The cycles value increments when the meter is reset Provided that the meter is reset each time the battery is charged then this will indicate the number of charge and discharge cycles on the pack In order to prevent false cycle counts from cases where frequent resetting is performed the value is only incremented if more than 1 6 amp hours was drawn at the time of the reset TotAh The total battery amp hours is a running sum of battery use over its life to the nearest 1Ah TotMi or TotKm This is the odometer function showing the total distance that has been travelled on the battery pack 5 Additional Resetting Options In addition to a regular reset to clear the trip distance time and amp hour data see Section 1 2 there are two other reset possibilities 5 1 Peak Reset In some instances for diagnostic and performance testing it is desirable to clear only the peak statistics Amax Amin Vmin and Smax without resetting anything else This can be accomplished by holding the right reset button when the display is
6. the appropriate Gain terms for the feedback loop The default values work well for ebike setups in the 300 600 watt power range For more powerful systems they will usually lead to the vehicle oscillating around the programmed set point rather than holding steady In this case it is necessary to tone down the appropriate feedback gains in the advanced setup menu 13 8 Advanced Setup Menu The advanced setup menu is accessed by pressing and holding the button when the message advanced shows up at the end of the regular setup menu and allows for setting less frequently changed parameters 8 1 RangeMode There are two mode settings that are available to accommodate the wide scope of electric vehicles The high range mode should be used with shunts that are under 1mOhm such as in electric motorcycles and small electric cars that draw hundreds of amps In this mode the Cycle Analyst will display current to the nearest 0 1 A and will show power in kW For shunts that are over 1 mOhm butless than 10 mOhm the LowRange mode must be selected This will increase the resolution to 0 01A 8 2 Averaging In an electric vehicle the current and voltage can fluctuate rapidly under normal use making the instantaneous values difficult to read These values are averaged before display Short averaging times allow you to get a better real time feel for the power fluctuations while longer averaging times produce a stable reading that is easier
7. to record The range is 1 7 which correlates to 0 025 seconds to 1 6 seconds between display updates The default setting is 5 0 4 sec 8 3 SetRshunt The Cycle Analyst is calibrated by programming a resistance value for the current sensing shunt If you are using a known shunt resistor then as a first estimate this value can be programmed directly in mOhm This will usually get the meter accurate to within 3 For highest accuracy the shunt value should be calibrated so that the displayed amperage matches that of a known current reference which may not be precisely the same as the mOhm rating on the resistor If the current is reading too low then the shunt resistance value needs to be decreased and vice versa Allowed values are 0 763 to 9 999 mOhm in Low Range Mode 0 0763 to 0 9999 mOhm in High Range Mode 14 8 4 ZeroAmps Over time and with temperature fluctuations it is possible for the zero point to drift such that even when no current is flowing through the shunt a small number like 0 03A is displayed This can be reset to zero by holding down the button after the zero amps screen until the _OK flashes on the bottom right Note though that the wire shunts used in motor controllers are prone to generating small thermoelectric voltages for a short while after being used This produces the appearance of a lingering current that slowly decays back to zero and it should not be confused for a current offset in the Cycle
8. Because there are large voltages present through this connector it is a good idea to protect the pins with dielectric grease particularly if it will be exposed to wet conditions To Cycle Analyst i Motor Controller NODDO 3 2 Wiring ofthe CA SA With the Stand Alone version wire the molded shunt in between your battery and the motor controller This is most conveniently done by attaching connectors on the shunt leads which match your battery connectors If you have a switch in the system it is best to wire the shunt after the switch so that the Cycle Analyst powers down mS onor Switch Fuse To Motor iii Controller Connectors To Cycle Analyst 3 3 Wiring of the CA HC The High Current model attaches to a 3 party shunt resistor and the positive battery lead The shunt must be connected to the ground side of the battery connection of the shunt to V can damage the circuitry Fuse On Off Red to V Switch Motor ar Controller Oe White and Blac Battery lt to Shunt 3 To Cycle Analyst Blue to Shunt 4 Display Information In addition to the screens discussed in section 1 there are 5 others that show a range of statistical information relating to the energy use of your vehicle 4 1 Display Screen 3 Power Information Watt hrs This is a measure of the total energy that has been pulled
9. The Cycle Analyst Large Screen Edition User Manual The Cycle Analyst 2 25 The Cycle Analyst is designed and manufactured in Canada by Grin Technologies Ltd 20 E 4th Ave Vancouver BC Canada V5T 1E8 ph 604 569 0902 email info ebikes ca web http www ebikes ca Author and Illustrator Justin Lemire Elmore Copyright 2011 10 11 12 Table of Contents Basic USAGE oi bcd bee ese bebe Re Oe 3 Device Summary 22 05 4 Installation 02206 sessed ence eee de 5 Display Information T7 Additional Resetting Options 9 Setup MENU 4 223 a Ka eee e eee ee eee ee as 10 Using the Limiting Features 12 Advanced Setup Menu 14 Using Advanced Features 18 Operation in Wet and Cold Conditions 20 Circuitboard Connections 21 Specifications 22 Congratulations on your purchase of a Cycle Analyst the first digital dashboard and battery monitor designed to the specific requirements of electric bicycles scooters and other small electric vehicles This device measures the energy consumption and speed of a vehicle and displays this information and related statistics on an easy to read backlit LCD screen When appropriately wired to a motor controller it is also capable of imposing a custom speed current or low voltage limit by regulating the throttle signal We hope that you find it a us
10. e of the LCD segments is slow and so rapidly changing digits and screen changes will appear as a blur The underlying operation of the internal circuitry is unaffected 20 11 Circuitboard Connections Precision Op Amp R R Op Amp PIC16F690 Microchip RISO a 5 R14 R3 m E l 3 Ro h ng Tord 8 T og o O a 200 S le Sa peer nG Poy o 03 Lies ts o o 5 mo PAT tp RERO 227 CAzRevit oR D aut 6 G Tx Vi 50x AID Tes En D4 D5 D6 D7 Bol DAO 000000000000000000 Nu aa Siga see an Ba a Advanced Connections Character LCD Header Standard Connections B1 Primary button input G Ground B2 Secondary back button input Sp Speedometer pulse input Can be either magnetic reed switch to Gnd or a 0 5V 0 12V hall signal from the controller G Ground black wire S Negative side of current sense Shunt Resistor Must be within 400 mV of Gnd white wire Sr Positive side of Shunt Resistor blue wire ThO Throttle Over ride output same as Th signal but already connected through a diode to pull down user s throttle V Positive lead to battery pack can be shared with other devices requiring battery power that draw less than 500mA red wire Advanced Connections G Ground Tx Serial data output signal 9600 baud 0 5V CMOS level Vi Auxiliary input voltage 0 5V range Voltages above 5V may permanently damage the device 5V 5V source user may draw up to 5mA fr
11. eful accessory that optimizes the experience of your electric vehicle 1 Basic Usage The Cycle Analyst will turn on automatically when more than 10V appears across the circuit and will tum off when this voltage is removed The default screen shows five pieces of information that are most relevant to the rider This includes three instantaneous quantities the voltage of the battery pack the power output in watts and the speed of the vehicle as well as two accumulated quantities trip distance and net amp hours Ah from the battery Toggles Between Y Ah and Distance n kek Press Buttons to Change Display A quick left or right press of the button will scroll through other display screens of interest while holding the right button will reset trip statistics The second display shows just the electrical information of the battery pack including the currentin amps 2nd Display Screen Additional clicks of the button scroll through a total of seven display screens which are discussed in detail in section 4 1 1 Asa Fuel Gauge Amp hours Ah are the fuel equivalent of a battery pack but rather than behaving like a fuel gauge and estimating how much fuel is left the Cycle Analyst instead tells you exactly how much you have used starting from O and counting upwards For example if you have an 8 Ah battery pack and the Cycle Analyst shows 6 1 amp hours consumed you would know there are just u
12. from regenerative current Most direct drive vehicles that do not have 7 explicit regen braking can still produce negative current when they are driven at high speeds As well vehicles with a freewheel in the drive could regenerate for brief periods from the energy stored in the motor s inertia The formula used for computing this percentage is RegenAh FwdAh RegenAh sng Regen Fwd Ah and Regen Ah The actual forward amp hours and regen negative amps hours to the nearest 0 0001 Ah alternate on the right side of the screen The net amp hours shown on the main display is the difference between these two 4 3 Display Screen 5 Peak Statistics The peak electrical statistics yield information that is useful to understanding the electrical limits that the battery is subject to Amin Peak negative or regen current that was captured by the meter Amax Maximum amperage that was drawn from the battery Vmin The voltage of a battery pack will sag sometimes considerably when it is under heavy load Vmin is a local minimum measurement that shows by how much your pack s voltage droops Typically Vmin and Amax occur at the same point and the maximum power draw can be computed from Vmin Amax 4 4 Display Screen 6 Speeds and Time Smax and Savg The maximum and average speed of the vehicle in the programmed units of km hr or mi hr 0h00m00s This is the trip time in hours minutes and seconds It counts only the time
13. he cells in a battery pack from delivering more than their rated amperage B Extend the range of your vehicle by reducing current draw during acceleration and hill climbing C Safely cycle atlow currenta NiMH or NiCad pack that has been sitting unused for along period D Keep the motor s power within a legally stipulated power limit A speed limit can help make any electric bicycle abide by the legal speed caps that exist in most jurisdictions while not affecting performance below that speed It can also be useful for extending the range or for taming a setup that is otherwise too fast for comfort without sacrificing hill climbing torque The voltage limit is used primarily to prevent the battery pack from being over discharged which can be damaging to the cells Typically you would set it between 29 to 31V for a 36V pack and between 39 to 41V fora 48V pack 7 1 How the feedback works To understand how the limiting features work just imagine how you would operate the throttle manually If you are going over a desired speed limit you would back off the throttle If the vehicle then reached a hill and started to slow down from your target speed you would further engage the throttle thus continuously adjusting the throttle position to keep at your desired velocity 12 The Cycle Analyst behaves similarly When it senses that any one of the limiting quantities has been exceeded then the throttle over ride signal starts to decrease fr
14. hrottle over ride signal connected to the motor controller The Direct Plug in models already have this appropriately connected but the Stand Alone and High Current version require additional wiring for these settings to have any effect 6 3 Speed Limit Set the maximum speed beyond which the motor controller will cease to provide useful output power The Cycle Analyst will vary the throttle signal such that the vehicle will continue to cruise at this set point speed 6 4 Volts Limit Program the low voltage rollback point for your battery pack The Cycle Analyst will reduce power drawn from the controller in order to keep the battery voltage from dropping below this limit 6 5 MaxAmps Set the upper current limit If the Cycle Analyst senses current above this value it will scale down the throttle appropriately to reduce the amperage draw 11 6 6 Main Display Finally the last setup option allows the user to select whether the primary display screen shows watts or amps in the bottom left corner depending on the user preference The 2 display screen will always show both quantities Select Watts ai 1 bi 6 214 Ah or Amps __ 7 Using the Limiting Features 38 4 V 25 6 kph 3 13 A 6 214 Ah A There are many situations when it is desirable to limit the amount of power that the controller is able to draw from the battery pack For instance you might want a current limit in order to A Protectt
15. iper range from 0 5V to just 0 3V so that the entire turn range is utilized In the advanced setup menu you can select whether this voltage regulates the current limit or the speed limit and it will scale the limit between 0 and the speed current limit programmed in the setup menu R1 5K Potentiometer 9 3 Current Throttle or Cruise Control V2 23 and later In other cases it may be advantageous to use the Cycle Analyst to directly regulate the motor controller rather than just limiting the power via a throttle over ride function The example below shows how to wire up a current throttle such that the regular throttle signal is intercepted by the Cycle Analyst which takes this as the command current The Cycle Analyst then sends it s own throttle signal along to the motor controller CA PCB Th Signal from CA V G G Tx Vi 5V Optional 5V Throttle o o C cam Throttle Power Gnd Signal from Throttle C Motor Controller 5V Throttle Power from Controller In this manner if full throttle is set to be 20 amps then by riding half throttle you could ensure exactly 10 amps are drawn from the battery regardless of the vehicle speed giving the user more direct control over their power usage Similar setups can be used to implement accurate cruise control systems Note that it is essential to set the AuxVoltage input see 8 17 to either the current or speed limit first other
16. le Over ride Green 22
17. must be less than ItermMax 8 13 Max Throttle Default 4 99V This value puts a maximum cap on the throttle output signal It can be used to simulate a lower speed motor by simply clamping the throttle signal to a value between 0 to 5V Be aware that the majority of hall effect throttles only operate from 1V to 4V and so the desired setting to reduce the speed would fall in this range less the diode voltage drop 16 8 14 SetRatio Default 0 100 This is the amplification ratio between the high gain and low gain current amplifiers on the circuit board It is usually around 0 10 is factory calibrated and should not be changed 8 15 Serial Output Default 1Hz This allows you to select between either a 1Hz or a 5Hz transmission rate on the Tx serial data output pad 1Hz is good for general purpose datalogging while the faster 5Hz rate can be useful for dynamic analysis of vehicle performance 8 16 Set TotDist Set TotAhrs Set TotCyc The next three screens enable you to preload or edit your life cycle usage statistics the total odometer distance the total amp hours you have taken from the pack and the total number of discharge and charge cycles on the battery 8 17 Aux Voltage Function Default OFF This allows you to set the function of the auxiliary input voltage line Pad Vi on the Cycle Analyst circuit board You can choose whether this line is ignored default or if it is used for on the fly regulation of either the s
18. nder 2 Ah remaining in the battery This will become quite intuitive after a few rides and you will be able to accurately gauge when the pack will run flat 1 2 Resetting After you have recharged the battery pack you should reset the trip statistics Ah Distance and Time to clear them all to zero This is done by pressing and holding the right button for 1 second until the message Reset shows up across the display Hold Right Button for 1 Second to Reset 1 3 Saving The Cycle Analyst will automatically save all the statistics when power from the battery pack is cut out This allows you to turn off the vehicle at any time and turn it on later without losing data 2 Device Summary Like most electric monitoring devices the Cycle Analyst measures the battery current in amps by amplifying the small voltage produced when currentis made to flow across a shunt resistor Battery HUL Ls Motor Controller Hi Shunt Resistor V Signals for Shunt Cycle Analyst Shunt This shunt resistor must be wired in series with the negative lead of the battery pack The power to run the Cycle Analyst then comes from the connection to the positive lead of the battery The Stand Alone Cycle Analyst CA SA includes a molded shunt capable of 45 amps of continuous current 100 amps peak while the Direct Plug in models CA DP or DPS requires access to the shunt resistor inside your mot
19. om its default resting value usually between 4 to 5V determined by ITermMax A simple circuit is required so that the controller only sees the lower value of the throttle signal or the Cycle Analyst signal This is generally achieved with a diode as follows pa Dod Throttle Over ride Throttle t Resistor to Cycle Analyst iG 2140k Throttle Signal Throt Signal inside Controller There are various setup options which control the speed at which the Cycle Analyst responds to these signals If the settings are too fast then the control can be twitchy or oscillate around the desired value while gain settings that are too low will cause a long lag time before the limiting kicks in 7 2 PIController Each of the three limiting features is implemented as a digital Proportional Integral Pl controller The actual output for speed regulation is computed as follows ITerm Previous ITerm IntSGain Set Speed Actual Speed Clamp ITermMin lt ITerm lt ITermMax Override ITerm PSGain Set Speed Actual Speed Similar values are calculated with the current limit and low voltage limit and the smallest of the three over ride terms is output as a voltage If this output is less than the user s throttle voltage then it is the Cycle Analyst which is ultimately controlling the vehicle 7 3 Tuning the feedback The ability of the Cycle Analyst to limit the speed current or low voltage in a fast yet smooth manner depends on setting
20. om this line for powering external circuits such as a potentiometer or throttle Currents gt 5mA can overheat the linear regulator Th Throttle output 0 5V analog throttle signal from CA 21 12 Specifications Voltage Range 10 150V Voltage Resolution 0 1V Current Draw TMA Current Range 200 mV Rshunt For instance with a 2mQ sense resistor the maximum current is 100 amps With a 0 5mQ resistor up to 400 amps and so forth Current Resolution 0 01A in low range mode 0 1A in high range mode Current Accuracy Temperature coefficient and accuracy depend on the shunt and calibration With pre calibrated Stand Alone model it is within 2 0 06A Trip Ah and Wh Up to 1999 Ah and 19999 Wh in low range mode and 10x this in high range mode Trip Distance Up to 1999 km or mi Odometer rolls over at 99999 km or mi Wheel Size 0 to 9999 mm Speed Range Up to 600 kph or mph There is an upper limit of about 500 Hz for the speed sensor input which can be increased by removing C6 Note that if any Ah Wh or Distance limits are exceeded then the calculated values such as Wh km and average speed will be incorrect Be sure to reset after each battery recharge CA DP Connector Pinout a 1 Vbatt Red CC Hi 2 Ground Black 3 Shunt Blue _ Sr 4 Shunt White 5 Speed Yellow JST SM Series Connector 6 Thrott
21. oose between displaying in miles or kilometers If you want to change the setting hold the right button until _OK appears on the screen Then pressing either button will toggle between mi or km and holding the right button again will save your selection and move to the nextitem 6 2 Setting the wheel size After units are input you will be presented with Set Wheel to input the circumference of the tire To change this to your actual wheel size hold the right button until OK appears in the bottom right hand corner Then the first digit will flash and you can cycle it through 0 9 with the left and right buttons When the correct value appears hold down the right button to save it and move on to the next digit Button Hold Button Increments for OK to E Save and go igi to Next Digit 10 The following table is a convenient reference on the circumference of several popular bicycle tire sizes For highest accuracy measure the actual circumference directly with a tape measure or similar technique Tire Size Circumference Tire Size Circumference 16 x 1 50 1185 26 x 1 25 1953 16 x 1 3 8 1282 26 x 1 1 8 1970 20 x 1 75 1515 26 x 1 3 8 2068 20 x 1 3 8 1615 26 x 1 1 2 2100 24 x 1 1 8 1795 26 x 1 50 2010 24 x 1 1 4 1905 700c x 23 2097 24 x 1 75 1890 700c x 28 2136 24 x 2 00 1925 700c x 32 2155 24 x 2 125 1965 700c x 38 2180 The next three setup items only matter to Cycle Analysts that have been wired with the t
22. or controller The High Current model CA HC is supplied with terminals to connect to a larger user supplied shunt Display Box _____60 Wire Typical Molded Shunt ss Ring Terminals we ga for CA HC NG Connector for CA DP S Speedometer Pickup Not in CA DP The Cycle Analyst picks up the vehicle speed information using either a spoke magnet or in the case of the CA DP device through the hall sensor signals from a brushless motor controller 3 Installation The Cycle Analyst display box comes with a mounting bracket for installation on the handlebar of your bicycle This bracket can rotate in two axis to adjust the display position Use rubber shims as required around the tube if the clamp diameter is too large for your bar Rotate to Adjust Handlebar f Clearance Cable Ties Spoke Magnet In the case of the CA SA CA DPS and CA HC models there is also a speedometer pickup cable and spoke magnet The pickup attaches to the fork with two cable ties and must be mounted to pass within 2mm of the magnet for the speed readings to register For systems like scooters or motorcycles that don t have spoked rims a standard magnet can be attached with epoxy to a suitable location on the wheel 5 The remaining installation details depend on the model 3 1 Wiring of the CA DP S With the Direct Plug models simply plug the 6 pin connector of the CA into the matching 6 pin connector on the motor controller
23. peed limit or the current limit via a variable voltage source 8 18 AuxThreshold Default 0 99V The auxiliary voltage input is scaled over a 3V input range to be compatible with hall effect throttles You can set the threshold where this voltage kicks in For instance if the threshold is OV then the input range is 0 3V If the threshold is set to 1V then the input range from zero to full scale is 1 4V matching the range of most ebike throttles 8 19 Vshutdown Default 10V This setting controls the voltage point at which the CA saves all data and powers down If the value is too low data may not save correctly It is possible to operate down to a 7V shutdown if the backlighting LED is bypassed with a short 17 9 Using Advanced Features There are several advanced features on the Cycle Analyst but making use of these requires soldering to the circuit board Incorrect wiring can easily damage the unit and it is only recommended for those who are familiar and comfortable with electronics 9 1 Using the Data Output V2 1 and beyond The pad labeled Tx contains a serial data stream with the current stats of the vehicle The format is tab deliminated ASCII text at a 9600 baud rate After power up the CA outputs a header line and then ata rate of once a second or 5 times a second see section 8 15 it transmits the amp hours voltage amperage speed and distance as shown here Ah Vv A S D3 3 296 47 62 10 04 15 32 8 9132
24. scaling is currently arbitrary 15 8 9 IntAGain Default 300 This value determines how rapidly the over ride output will ramp down when the current from the battery pack exceeds the programmed current limit Too low of a value will result in considerable overshooting of the set point current while too large of a gain will cause the controller to oscillate above and below the limit The range of allowable values is from 0 to 999 8 10 IntVGain Default 800 This value determines how rapidly the over ride output signal will scale down when the pack voltage falls below the set low voltage cutout The range of allowable values is from 0 to 999 and the scaling is arbitrary 8 11 ITermMax Default 3 79V This puts an upper limit on how high the throttle over ride will drift upwards when none of the limit values are being exceeded Ideally this value is set to the voltage that is considered full throttle by the controller For hall effect throttles full power occurs at about 4V and limiting the ITerm to this value will speed up the response time of the limiting features Allowable values are from O to 4 99V 8 12 ITermMin Default 0 0V This value imposes a lower bound on how low the throttle over ride can drift downwards when one of the limiting values is being exceeded By preventing the over ride signal from going all the way to OV you can decrease the recovery time for the signal to go back upwards Range is from 0 to 4 99V and
25. wise the system will take off at full power when turned on 19 9 4 Firmware Programming The set of 5 header pads on the bottom right of the PCB is used for programming the microchip The pinout is the same as recommended by Microchip s In Circuit Serial Programming ICSP Guide and is compatible with most in circuit serial programmers We usually recommend the Microchip PICkit2 but many other programming devices will work as well The firmware can be flashed either with the Cycle Analyst powered up or from the 5V supply of the programming device MCLR 5V Gnd Programming Data Header Clock J 10 Operation in Wet and Cold Conditions The Cycle Analyst enclosure contains a clear sealed window to protect the circuitboard and LCD from water exposure There is no problem using the meter in light rain However in cases of prolonged exposure to wet conditions itis possible for moisture to enter the box though the back cover which is not sealed This can cause the window to fog up in cold conditions and render the display difficult to read Should this occur simply remove the back cover so that the moisture can escape and let the unit dry thoroughly indoors When it is reassembled you may consider using a sealant around the lip and screw holes to render the box fully waterproof The LCD screen is specified to operate between 10 C to 50 C At the colder end of the temperature range the response tim
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