Professional Ballistics Lab System 85 User`s Manual
Contents
1. Pressure Vel13 Prf TOF2T BC Hoz Vert PeakA TimeA PeakB TimeB Avg 0 300 0 0 5 SD 0 0 0 0 317 0 0 0 0 29 19 3924 4 High 2500 1 9528 0 017 0 0 0 0 70075 2000 62150 2012 Low 2499 0 9527 0 017 0 0 0 0 70000 1952 53075 2001 ES f 4 1 0 000 0 0 0 0 T5 48 9075 11 Group Size 0 01 Radial SD 0 01 Summary If the size and resolution of your display permits you can move the summary window to uncover the primary test window It is convenient to leave it just below the testing display so that it shows an extra set of column headings at the foot of the numerical shot data Leaving the summary window open during an actual test provides an up to date running summary after each shot is fired The Pressure button opens a window showing the pressure curves of the last or highlighed round ij Pressure Curves for test M76 Standard Test x Round 1 PSDiv 20 000 us Div 200 Pressure This provides a better view of the pressure curves from the highlighted shot If the size and resolution of your display permits you can move it to uncover the testing display window Leaving the pressure window open during a test provides a much better view of the latest pressure curves Clicking on the Target button opens a window with a larger view of the acoustic target Target for test Press A amp B and Target x Grid Size 1 5 in e Group Size 7 09 in Radial SD 246 in Maan Radius 2 15 in ee2. raw will be included few tenths of a foot or 0 1 on longer in the file name distances or you will get meaningless answers Measurement Channels BC The ballistic coefficient calculated from The column headings shown on the testing your data and is Cort ected to standard screen are those you previewed on the Setup amosp heric conditions You must take screen They may include special care to measure and update air temperature to get accurate values of Rnd BC Altitude barometric pressure and The round number of the shot within the humidity are also considered but are test group less critical Vel13 Horiz The velocity measured from screen 1 to The horizontal impact point of the bullet screen 3 It is commonly called the measured in inches with respect to the instrumental velocity center of the acoustic target square Positive numbers are right and negative Prf numbers are left The velocity proof number It is computed by subtracting VELIS from Vert VEL12 Ideally this number is both The vertical impact point of the bullet small and consistent If the number is measured in inches with respect to the large say more than 5 fps but center of the acoustic target square consistent it normally indicates an error Positive numbers are high and negative in screen spacing A consistently numbers are low negative number for example indicates that screen 2 is too close to screen 3 Oehler Research System 85 Version 1 1 0 5 19 2011 P
3. Factors Affecting Pressure Measurements We all think we know what influences chamber pressure Bullet weight and diameter seating depth and freebore powder weight type and lot case capacity ambient temperature and primers are known to influence the pressure Now consider the extra items that influence the measurement of pressure The following list was taken directly from the ANSI SAAMI standards and the standards refer to the list as the principal items in each category which may cause difficulties INSTRUMENTATION 1 Condition of test barrel whether minimum or maximum bore chamber size and headspace amount of erosion at throat and bore Fit of transducer in barrel Location of transducer in barrel Tightness of barrel mounting Shape size and protrusion of firing pin beyond breech face Force of firing pin blow Characteristics of transducer Quality of transducer Quality of Read Out System MKRWN SONY AMMUNITION 1 Condition of cartridge 2 Position of powder in case 3 Temperature of ammunition PROCEDURE 1 Failure to properly mount pressure barrel in Universal Receiver or other test action to assure minimum headspace 2 Failure to rotate cartridge and close breech carefully to assure proper powder positioning Failure to fire warming shots Overheating barrel by excessive rate of fire 5 Failure to clean bore and control metal fouling 6 Failure to protect transducer
4. J3 BNC Amphenol 31 5431 10RFX J4 BNC Amphenol 31 5431 10ORFX J5 BNC Amphenol 31 5431 10RFX J6 BNC Amphenol 31 5431 10RFX J7 BNC Amphenol 31 5431 10ORFX J8 BNC Amphenol 31 5431 10RFX J9 BNC Amphenol 31 5431 10RFX J10 Deleted J11 40 Pin Socket for MOD5213 L1 1 mH QI 2N2222Metal Can Q2 2N2222Metal Can Q3 2N2222 Metal Can Q4 2N2222Metal Can Q5 NDP 6020P RI 22K R2 22K R3 10K R4 22K R5 22K R6 10K R7 22K R8 22K R9 10K RIO 22K RII 22K R12 10K R13 1K R14 1K R15 IK R16 1K R17 10K R18 10K R19 10K R20 10K R22 220 R21 470 R23 22K R24 100K R25 10K Pot Murata PV37W103C01 R26 46 4K May be selected R27 100K R28 10K Pot Murata PV37W103C01 R29 46 4K May be selected R30 1K U1 UM232R FTDI USB Serial Oehler Qualified U2 TPS7333QP TI Regulator U3 MODS5213 NetBurner Oehler Qualified U4 LTV 847 Lite On Coupler U5 CD4044 U6 CD4044 U7 OPA2340 TI Dual Op Amp Power Supply Approximately 160 ma from USB bus Oehler Research System 85 Version 1 1 0 5 19 2011 Page D 3 A Ri 4 100 Upper Left mic 29 10 Jt RI 45 To Sys 85 Mic Inputs Lower Left Mic 12u C 2o 4 Lower Right Mic Lo J3 D R19 2o 4 100 Upper Right Mic Lo 500 c8 J4 Ret 12U Panel BNC Typical Toad R26 Amphenol 31 5431 LORFX u2 1 UF TANT cS AN78L12 12 VOLT DC WALL MOUNT XFMR nn OUT 10 UF TANT TRI
5. ener Professional Ballistics Lab System 85 User s Manual Oehler Research System 85 Version 1 1 0 5 19 2011 Thanks for choosing to use the Oehler System 85 This system is well suited to modern test methods that include databases and local networks Our manuals have evolved over forty years Many industrial users have so much experience that they often don t need a manual to use conventional chronographs and peak pressure equipment The System 85 is different it is intended for a variety of users System 85 users may be first time ballistic testers or they may have been doing tests to SAAM NATO or CIP specs for thirty years If we ve told you the obvious please forgive us If we ve left out something please give us a call We suggest that everyone starts with the Quick Tour Instructions found on page 10 fa Ken Oehler April 2010 Oehler Research System 85 Version 1 1 0 5 19 2011 CHAPTER 1 CHAPTER 2 CHAPTER 3 CHAPTER 4 CHAPTER 5 CHAPTER 6 TABLE OF CONTENTS Ballistics Instrumentation System 85 Background Information Pressure Measurements Relative Pressures Reference Ammo Factory Pressure Limits Offset Factors Affecting Pressure Measurements Powder Position Ballistic Coefficient Acoustic Target Quick Tour Instructions If you don t want to read more than the essentials start here If you don t read this chapter you will probably have trouble operating the system Main D
6. APPENDIX A Drag Functions The Drag Functions The drag functions G1 G5 G6 G7 GL Gs and RA 4 are based on different styles of bullets These drag functions are derived from the corresponding SAAMI tables and are used with permission The G1 function is the default in the System 85 program and is universally used in most applications The following drag functions are available in the System 85 program Gl Standard table for all sporting bullets G5 Low base drag boat tail bullets G6 Flat base sharp nose bullets G7 VLD bullets GL Exposed lead nose amp hollow point bullets Gs Spherical bullets RA 4 Standard for rimfire bullets If you are thoroughly familiar with the various drag functions and want to be able to use other drag functions to calculate ballistic coefficients and do standard atmosphere ballistics you can enable the other drag tables During test setup hit the drag function pushbutton as you are entering the bullet data Change the drag function to any one desired The System 85 will compute the ballistic coefficient appropriate to the drag function selected Now that you know how to choose alternate drag functions we urge you to stick with the G1 drag function Oehler Research System 85 Version 1 1 0 5 19 2011 Page A 1 APPENDIX B Correcting Data Sooner or later you will have a test record in which you have entered the wrong distances temperature load information or other data Yo
7. FilterPoles1To3 1 You can indicate the desired number of poles for the filter The value can equal 1 2 or 3 For anything else the value defaults to 1 pole The frequency of each filter is set to 22 kHz and cannot be changed Frequency remains at 22 kHz for both 5 us and 10 us sample rates Oehler Research System Version 1 1 0 5 19 2011 Page G 3
8. and can provide information unique to that tunnel or setup Test data and any special templates will be written to folders local to the tunnel Reports and exported test data stored in folders at each tunnel will be periodically mined and reviewed by an administrator and then placed in appropriate archives We suggest that the gun files be created and maintained by the person responsible for transducer calibration and installation along with determining the reference corrections for the barrel These gun files can be stored at one common network location and need not be stored at individual tunnels It a barrel is available for use the most current data is automatically available The operator must still make the appropriate gain settings on the charge amplifier Load data files are not critical Again we suggest that files for common catalog and production items be established and maintained in one common network folder The System 85 makes practically no use of the information included in the load data it is required as a memo to assure a complete record of your test Oehler Research System 85 Version 1 1 0 5 19 2011 Page F 2 APPENDIX G Pressure Filtering The question of filtering has been debated through the history of electronic pressure transducers Users want to observe pressure time curves that accurately reflect the pressure being observed Users want to remove spurious noise and artifacts from the curve
9. instructions If you are a Windows purist we apologize for some of the constraints left in the program For standardization we have chosen to restrict some of the options sometimes available in Windows If you haven t taken the quick tour described in Chapter 2 we urge you again to take it now It will help if your have your M85 program running as you read these explanations The Main Display widow is the center of the System 85 software Everything starts and ends at this window You leave this window by pushing one of the buttons at the top and the only controlled exit from the program is back through this window The Setup button will bring up a list of options Setup Options You must go through the setup options prior to any test except when you are firing another group with the same gun and ammo under exactly the same conditions It s the only place you can enter test information The New Edit current test template option lets you define what you want to measure how your equipment is set up the environmental conditions gun information and load information The Load a test template option allows you to load any previously defined template You can add new groups to an earlier test or you can load an earlier similar test to form the basis for editing It is anticipated that users will keep common tests in a networked file to assure consistency between gunners and firing bays The Modify an existing test is
10. 80 gt _ _ 1 81 400 samples Threshold Figure 1 Pressure Samples The sample window is triggered when Pressure A increases above 0 95 volts referred to a full scale input of 10 volts The a d conversion is scaled so that an integer reading of 0 to 4000 corresponds to a full scale input of 0 to 10 volts The converter can over range up to a reading of 4095 The first 80 readings occur before Pressure A crosses the threshold and the following 320 readings occur after Pressure A crosses the threshold Oehler Research System 85 Version 1 1 0 5 19 2011 Page E 1 Muzzle Velocity The muzzle velocity routine returns four time stamps corresponding to Fire Start Mid and Stop Burst rate of Fire The Burst rate of Fire routine returns two time stamps Start and Stop for each of the first 400 rounds fired Targeting The targeting routine returns eight time stamps They are Fire Start Mid and Stop plus the four times stamps from each of the four microphones Communication Interface Hardware Interface The hardware interface to the PC is an industry standard USB The USB module is a Future Technology UM232R The appropriate driver can be downloaded from their website http www ftdichip com The RS232 control signals from the UM232R have been modified from usual convention The DTR line is used to provide a hard reset to the System 85 hardware To absolutely reset the System 85 set DTR line lo
11. a dangerous option It allows you to correct a previously fired test for information or conditions entered in error For example you can correct the distance from gun to target on a ballistic coefficient test or the offset on a pressure test Upon any subsequent replay or printing the test results will reflect the changes you make You can edit test conditions fill in extra blanks about the load or make similar corrections you can also demolish the validity of a test if you put in the wrong numbers To note possible alteration of your original recorded data any replay or print subsequent to a modification will include an edited flag in place of the date The Current gun file Current load file and Current test file options allow you to specify the files currently in use by the program The program will typically search a folder for files with the Oehler Research System 85 Version 1 1 0 5 19 2011 Page 17 S85 suffix and allows you to select the desired files for use As a matter of habit we use s85 as the suffix for all of these files and reflect the type of file in the prefix name For instance we would use Gundata s85 GunRifles s85 GunGage s85 TestBarrels s85 or similar names for gun files Here you must also enter the locations for Auto save report option and Auto export data option These folders will receive the pdf and Excel reports automatically generated at the end of each firing test The New gun f
12. a panei r e ca Hole Size 0 31 in i e e e Target Size 7 e C Small a Large ba Target Oehler Research System 85 Version 1 1 0 5 19 2011 Page 25 Within this window you can select the hole size to provide a realistic view of the target and you can select between two sizes of target windows Again the window can be left open during an actual test to watch the target develop The last shot is colored green and the X denotes the group center Clicking on any hole will select and highlight the corresponding round in the test data 1280x800 Display The size of the primary windows is fixed at 800x600 They are not scalable If your display is at least 1280x768 you can take advantage of the extra room by leaving the summary target and pressure windows open The latest pressure curves and shot location are much easier to interpret and the statistical summary is also available The Status button could just a well be labeled the Question button If you suspect stray signals on the pressure channel use the status button to view the oscilloscope snapshots of pressure Perhaps even more important is the time when you fire a shot and get no response from the System 85 Pushing the status button will force the System 85 to display all the information it knows regarding the last shot After a response has been forced by the status button highlight the last shot data and double click This will bring up the diagn
13. a subsonic bullet inadequate light due to dust and dirt accumulation abnormally bright muzzle flash or tracers The Proof Channel is actually a second chronograph On a standard chronograph with two screens the first screen Start detects the bullet as it enters the screens The second screen Stop detects the bullet as it leaves the screens The chronograph measures the elapsed time between the signals from the Start and Stop screens and reads out the velocity in feet per second The Proof Channel adds a middle screen MID and a second timing channel The bullet s velocity is measured twice by each set of three screens once by the first two screens the proof velocity and once by the first and third screens primary velocity If screens are accurately spaced the proof velocities should be very near the primary velocities and the PRF numbers will be small If you do a sloppy job spacing the screens expect larger but often consistent differences on each shot If you have occasional large differences they are probably due to false triggering from muzzle flash or blast from subsonic loads For example if you move the middle screen just a quarter inch from the exact midpoint you can see an increased difference between the primary and proof velocities as indicated by a larger PRF number The Proof Channel shows the importance of accurate and adequate screen spacing The reading of the PRF channel is comparable in size to
14. displayed You will see a dotted completion bar under the picture of the System 85 front panel as initial checks are performed If pressures are expected oscilloscope snapshots of the quiescent pressure signals are shown Quiescent pressure signals should be flat lines at the bottom of the display If there are haystacks indicating power line interference or if there are stray shapes indicating noise the problem should be corrected After the completion bar finishes push the Begin Test button You must allow the completion bar to finish Muzzle 5 0 h 10 0 t Test Name M76 Standard Test Group Shots 0 Test Note Rnd Vells Prf TOF2T VelT BC Horz Vert PeakA PeakB TimeB Testing Display The testing display is your window for actual shooting You see the graphic picture of your test setup along with the picture of the target frame and you group Pay attention to the green ready light in the upper left of the screen If the light shows steady green and Ready the system is ready for you to shoot if it s red or flashing there are false triggers Fire the first shot and you should see the parameter value appear in each column along with the pressure curve and a bullet hole in the target Soon after the shot the ready light should return to green in anticipation of the next shot You can see the schematic of the test setup the group on the target the numeric value of each test parameter of each shot
15. estimated ballistic coefficient of your bullet If in doubt enter a B C of 0 200 Do not use a B C of zero If you use a B C of zero the computer expects the bullet to fall to the floor immediately after it leaves the muzzle NOTE If you measure the actual BC using the acoustic target the load BC value is automatically updated Oehler Research System 85 Version 1 1 0 5 19 2011 Page 22 Powder This is optional Powder Wgt Grains This is optional Lot Number This is optional but almost as important for your records as powder type and weight Primer This is optional Brass This is optional Max Avg Press This is optional and is simply for convenient reference Avg Velocity This is optional and is simply for convenient reference Note that the last two above headings can be altered to record any other parameter of regular interest See Set Load Labels under the Options list of the Main Display Note You can add a short note about this load Oehler Research System 85 Version 1 1 0 5 19 2011 Page 23 CHAPTER 4 Testing Display After the template is successfully saved you Leaving the monitor window shows the testing will be returned to the Main Display window display Push the Test pushbutton to start the test This will establish and check the USB connection to the System 85 S Begin Test Click Begin Test to start testing Monitor Screen The monitor screen will be
16. hit the printer icon at the top of the preview screen If you don t hit the printer icon now you ll have to go through the select process again and select the Printer pushbutton instead of the default Preview button Replay Button The Replay button of the main display is similar in function to the printout button It allows you to select from a test list and shows the screen of the actual test results with summary and ballistics available The setup gun and load information for the selected test will be displayed on the Main Display when you return from the replay You can get a consolidated report of both test results and the setup conditions with a printout Options Button Under the Options button of the main display you can change several appearance items More important you can change the system from English to metric units Options Oehler Research System 85 Version 1 1 0 5 19 2011 Page 18 Auto open close windows provides for automatic opening and positioning of the Target Summary and Pressure windows during a test The Color options affect the display of the testing screen used during actual shooting The Enable report data export on replay option allows you to generate and export new pdf and Excel files when you replay a test Usually you will want to generate these new files only if you have made changes to the setup prior to replay and you want a new report reflecting these corrections or change betwee
17. it will show circles instead of holes so you can see individual shots in a one hole group Checking Use alternate font may help older printers Oehler Research System 85 Version 1 1 0 5 19 2011 Page 19 Tools Button Includes Export to Database Copy test s Delete gt Export reports data Rename tests Tools Options Under the Tools pushbutton of the main display there are several useful options The Copy test s allows you to reorganize your tests and put test results into different test data files The Delete function allows you to delete or scrap tests guns loads or test templates The Export reports data option allows you to export test data to in both pdf and Excel format to the folders specified in Setup The Rename tests option allows you to rename your tests Renaming tests can be dangerous If you rename tests you assume responsibility that the changed names of the tests are reflected in all data files and reports Close Button The Close button lets you exit the program gracefully The Equipment Diagram of the main display gives you a picture of the test equipment used for the displayed template It is automatically updated to show the distances and equipment specified in the setup Entering Test Setup For adequate documentation of each test you should fill in all the little boxes of the main display Some boxes are essential to the measurements and some are simply desired for memo J
18. noise the problem should be corrected After the completion bar finished push the Begin Test button You must allow the completion bar to finish Leaving the diagnostic window shows the testing display Sys 85 Testing D SE rece lt a Main Display OmitRestore E3 Summary Pressure _ amp Target o QD 505 status 20 0 f 4 a si sf s Muzzle E 5 0 t l 10 0 f Test Name Press A amp B and Target Group 5 Shots 0 Test Note Rnd Veli3 TOF2T Ve T BC Hoz ver Peaka Timea PeakB Timed x 3 Testing Display The testing display is your window for actual shooting You see the graphic picture of your test setup along with the picture of the target frame and you group Pay attention to the green ready light in the upper left of the screen If the light shows steady green and Ready the system is ready for you to shoot if it s red or flashing there are false triggers Fire the first shot and you should see the parameter value appear in each column along with the pressure curve and a bullet hole in the target To get a diagnostic window select and double click on the round in question Oehler Research System 85 Version 1 1 0 5 19 2011 Page 15 Diagnostic Message lt lt lt Raw Data gt gt gt Fire time 0 i Threshold time 1024 Screen 1 3000 Screen 2 5000 Screen 3 7001 Microphone A 15003 Microphone B 15003 Microphone C 15004 Diagnostic Message The diagnostic message
19. of the System 85 and similar ballistic test systems Oehler Research System 85 Version 1 1 0 5 19 2011 Page C 1 Model 76 Firing Simulator General The Model 76 Firing Simulator provides a source of know test signals for ballistic instrumentation systems These signals can be used in the routine checkout and calibration of ballistic instrumentation Timing accuracy is approximately 0 01 and voltage accuracy is approximately 0 05 Signals Provided FIRE The fire signal indicates the initiation of a test shot In testing the fire signal is typically generated using an action time switch in the universal receiver It can also be generated using the electrical fire signal for electrically primed ammunition The pulse is 12 volts one millisecond long via BNC connector PRESSURE A A simulated pressure signal is provided 1 millisecond after the fire signal The peak amplitude of this voltage signal can be conveniently adjusted in one volt steps from one to seven volts The nominal duration is 1 millisecond with rise and fall times of nominal 130 microseconds Output via BNC connector This signal represents chamber pressure and can be used to verify the accuracy of the voltage pressure measurement PRESSURE B The second simulated pressure signal is provided 2 milliseconds after the fire signal This voltage signal provides a fast rise time to peak and a nominal 150 microsecond decay time constant and is via BNC connecto
20. of the gun but they have no idea of what is going on inside the gun If nothing breaks it s OK if the cartridge case can t be reloaded it s borderline if the gun blows up the load was a little hot This is completely unacceptable from the viewpoint of personal safety The wiser shooters try to read the indications of excess pressure by paying particular attention to the condition of the cartridge case after a shot is fired What they don t realize is that many of the fired cases of proof ammo would be considered to be reloadable if judged by the visible characteristics commonly observed by handloaders There are no signs of brass flow or enlarged primer pockets Proof ammunition is special test ammo loaded to generate distinctly higher pressures than will ever be generated by factory ammo Each new gun is tested with one round Shooters claim concerns about pressure but they often don t give pressure the respect it deserves They have had no equivalent to a chronograph to help them Oehler Research System 85 Version 1 1 0 5 19 2011 Page 1 The first practical pressure gauge for measuring the pressure inside a gun was invented by Sir Alfred Nobel in the 1860s This gauge is commonly known as a crusher gauge To make a crusher gauge drill a hole through the barrel into the chamber fit the hole with a sliding piston and let the sliding piston crush a small piece of lead against an anvil when the shot is fired The higher the pressu
21. pressure curve Use the scroll bar to see up to twenty rounds of the test Oehler Research System 85 Version 1 1 0 5 19 2011 Page 10 Summary for test M76 Standard Test 2434 0 103 0 0 69993 53502 2013 0 0 001 0 0 0 0 1168 2434 0 104 0 0 0 0 70025 56825 2016 9527 2433 0 102 0 0 0 0 69978 53050 2005 0 1 0 002 0 0 0 0 50 ais T Group Size 0 0 Radial SD 0 0 Summary o0 gt 0 a o 2 Here is the statistical summary of all parameters just as if you had requested the summary at the end of the test If the size and resolution of your display permits you can move the summary window to uncover the primary test window Leaving the summary window open during an actual test provides an up to date running summary after each shot is fired Pressure Curves for test M76 Standard Test b x Round 1 PSI Div 20 000 us Div 200 Pressure Clicking on the Pressure button opens the pressure window This provides a better view of the pressure curves from the highlighted shot If the size and resolution of your display permits you can move to uncover the rpimary test window Leaving the pressure window open during a test provides a much better view of the latest pressure curves Target for test Press A amp B and Target x e Grid Size 15 in Group Size 7 09 in Radial SD 2 46 in mean Radius 2 15 in ee a 4 bd m Hole Size 0 31 in f e e e Target Size e Sma
22. shot location are much easier to interpret and the statistical summary is also available Go back to the Main Display and replay a few more different tests Play with all the buttons just to become familiar with the actions To print a previously fired test follow a similar procedure You just hit the Printout button instead of the replay button while you are in the Main Display window Select the test to be printed with a double click push the Printout button The Preview button is selected by default and an OK will show the preview on your screen If you really want the report printed on paper select the Printer pushbutton instead of the Preview button Now that you ve replayed some of our tests and printed copies of our reports it s time to do your own test Start from the Main Display window using the Setup pushbutton The setup pushbutton will pull down a list of confusing terms If you ve used the Oehler 43 83 or 84 you will be right at home In the System 85 program we refer to the description of a test as a template A test template is the complete description of a test excluding the actual firing data The template describes what parameters are to be tested pressure muzzle velocity what test equipment is used and how it is arranged screen spacing pressure scale factor environment temperature wind barometric pressure gun description and load description You must have a test templa
23. shows the times at which various critical events occurred It is especially useful for isolating problems with sensors All the times shown are in microseconds and are referenced to the first recognized event Ifa Fire signal is used the time at this event will be zero The next event expected is Pressure A crossing it s detection threshold These signals will be followed by signals from the muzzle screens and the target microphones Any expected event that did not occur is represented by If any line of shot data is overwritten by lines or dashes it is considered to be omitted from the summary When the System 85 detects known abnormal data it will automatically omit that shot We use a special logic on the Omit function If the last shot is shown as omitted on the display the next shot will erase and overwrite it This allows you to cleanly forget those shots obviously caused by warming rounds or by a false trigger or other such goof Any previous shot can be omitted removed from the summary but it will not be erased You can t remove all evidence of a shot just because you later decide that you don t like it The data may be trying to tell you something even if you don t recognize it now Oehler Research System 85 Version 1 1 0 5 19 2011 Page 16 CHAPTER 3 Main Display This chapter provides more details on setting up a test For those who don t really believe in Windows here are some old fashioned printed
24. test the revised template was automatically written over the existing template The templates are stored in the System 85 TestData file as a group zero test This protocol worked well for independent systems where convenient adaptability to current conditions was the highest priority In the environment of multiple test tunnels shared by many operators standardization of the tests becomes the higher priority Operator data entry with the associated errors must be minimized yet the operator must retain the capability to properly record any departures from the provided script Oehler Research System 85 Version 1 1 0 5 19 2011 Page F 1 The traditional means of minimizing data entry errors is allowing choice from a predetermined list For instance each test tunnel would include its own set of templates Given a sample of 30 06 ammo for the standard pressure and velocity test the operator would look for and load the template labeled 3006Spr PV XXxxxxx The template would already include entries for tunnel designation appropriate screen locations environment etc The operator would probably insert his name The template would default to a particular gun but this could be readily changed by selecting and loading a new gun filed under 3006 that new gun file would include all the appropriate transducer settings and reference corrections The template would include a default load file That file too can be read
25. typical errors in your velocity measurements Oehler Research System 85 Version 1 1 0 5 19 2011 Page 33 Subsonic Velocities With velocities below the speed of sound the muzzle blast wave reaches the screen before the bullet This muzzle blast wave is like a lens traveling through the air at the speed of sound The resulting light diffraction can trigger the screens The speed of sound is approximately 1060 plus the air temperature in degrees Fahrenheit or 1130 fps at room temperature Premature triggering of only the start screen will cause the primary velocities to be abnormally low and the PRF number to be negative Premature triggering of both start and middle screens will cause the primary velocity to read abnormally low and the PRF number to be large and positive Premature triggering of all three screens a rare case will cause the primary velocity to read near the speed of sound and the PRF to be small Subsonic blast problems can occasionally be cured by moving the screens farther from the muzzle The only sure solution is to install a blast baffle midway between muzzle and first screen This baffle should be a piece of plywood with a small hole or vertical slot to shoot through We use a piece of plywood 2x4 feet standing on end and leaning on a single hinged leg Cut a vertical inch wide shooting slot from gun level to the top of the shield Place the baffle about halfway between the muzzle and the first skyscreen
26. you are prepared to spend the price of a new luxury automobile on test equipment and are willing to follow ANSI SAAMI procedures exactly you cannot use their numbers to justify increasing the pressures of handloads Offset The term offset has just come into the pressure measurement vocabulary with the widespread use of the conformal piezoelectric transducer The conformal transducer is commonly used at the ammunition factories for pressure measure ments The conformal transducer is mounted in a test barrel with the sensitive face of the transducer actually forming a portion of the chamber wall When the cartridge is fired the case expands to push on the chamber wall The case must contain a significant pressure before it stretches enough to press against the chamber wall The pressure required to expand the case and push it against the conformal transducer is called the offset and is added to the measured pressure as a correction In industrial applications this offset correction is measured with hydraulic pressure for each lot of cases References For more information we suggest that you read the sections Chamber Pressures in Handloading and Measurements of Chamber Pressure by William C Davis Jr contained in the NRA Handloading book 1981 Industrial users must become intimately familiar with the appropriate standards ANSI SAAMI 2299 1 Z299 2 Z299 3 and 2299 4 Oehler Research System 85 Version 1 1 0 5 19 2011 Page 5
27. AD WDULS 200 3 15 YDC OUTPUT CP 282A ND Vv 19 Apr 2009 Add C9 on input power Oehler Research 8536 Acoustic Target Amp Rev 1 8 Ken Oehler 471472018 eat Oehler Research System 85 Version 1 1 0 5 19 2011 Page D 4 APPENDIX E Firmware Protocols The System 85 Ballistics Measurement System supports the action time rate of fire dual pressures PS A PS B muzzle velocity and down range targeting time of flight Event Timing and Capture The following time events are captured from one of four synchronized 32 bit hardware timers with a resolution of luS Raw times are referenced to activation of the green Ready light e Fire Signal Latched Rise Edge Timer 1 e PS A Sample 81 Software Read Timer 1 Threshold e Velocities Start Latched Rise Edge Timer 2 Mid Latched Rise Edge Timer 3 Stop Latched Rise Edge Timer 4 e Targeting Microphone A Latched Rise Edge Timer 1 Microphone B Latched Rise Edge Timer 2 Microphone C Latched Rise Edge Timer 3 Microphone D Latched Rise Edge Timer 4 Pressure Conversion and Capture The System 85 simultaneously samples two 12 bit analog to digital converters Either a 5uS or a 10uS sample interval can be selected This yields either 2mS or 4mS of pressure data The pressure measurement routine returns time stamps for the Fire and PS A Threshold events followed by 400 ordered sample pairs of the voltage measurements 20 gt amp
28. Do not use a metal plate Model 76 or Model 77 Firing Simulators The first step in trouble shooting is to double click on the high lighted line of the suspect shot This will display the times of the critical events of the shot and can be used to diagnose most problems The second step is the use of an Oehler firing simulator These units provides signals of know timing and amplitude to emulate the responses of transducers screens and microphones for a complete firing test It conveniently draws a line between the System 85 and the sensors If the System 85 provides the expected response to the M76 look for problems with your input sensors or cables The Model 77 provides automatic fire and more detailed acoustic target simulation If the System 85 does not properly respond to the simulator call Oehler Personal Reference Ammo You can quickly check the operation of the chronograph portion of the system with an airgun Velocities will range from approximately 225 fps for a kid s BB gun to approximately 600 fps for adult match air rifles up to over 1000 fps for some adult sporter air rifles BBs and pellets are small short and slow They provide a severe test of screen sensitivity so you must shoot through the lower half of the screen window If your system works with an airgun but fails with larger guns you can suspect problems related to muzzle blast or flash Oehler Research System 85 Version 1 1 0 5 19 2011 Page 34
29. ID and STOP inputs A nominal 12 volt signal is expected but the system will accept signals as low as 5 volts and will not be harmed by signals up to 100 volts External Source for Pressure Signal The System 85 accepts pressure signals from an external voltage source Pressure input is from zero to 10 volts at an impedance of 150K ohms Prior to the digitizer high frequency is limited by a single pole RC filter at 50K Hz The external source is typically a charge mode piezo transducer and charge amplifier but it may be a voltage mode transducer Connect the external pressure signal to the BNC PRESSURE connectors located on the back panel Pressure A is expected to measure to the chamber pressure signal Pressure B may be connected to either a down barrel pressure transducer or to a second chamber pressure transducer If you are measuring only one pressure you must use Pressure A 22kHz Filters Each pressure channel contains a digital 22kHz low pass single pole Butterworth filter located after the digitizer It is judged that this filter is appropriate for routine interior ballistic events and is frequently specified as required The filter is properly located after the digitizing process because digitizers themselves often introduce the equivalent of high frequency noise Both pressure curves and the numerical readings shown by the System 85 include the effects of these filters The pressure samples recorded to the Exce
30. M and 223Rem are recognizable and unique identifiers If all test names begin with these characters any search is narrowed considerably After a space the nature of the test can be described For instance we d suggest the following abbreviations PV Pressure and Velocity PPV Pressure Pressure and Velocity VT Velocity and Target PPVT Pressures Velocity and Target If you see a test name of 3006Spr PV xxxxxxxx you know it is a routine pressure and velocity test of a 30 06 Springfield The System 85 will allow root test names of up to 30 characters Following the headstamp and nature of the test the user may add to the test name at his discretion It is recognized that the gunner should enter minimal information into the computer before firing the test However you want to see complete information on any test reports and data If the gunner doesn t provide all the desired archival information it must come from somewhere and be properly associated with the test The System 85 uses what we call templates to define the test name and conditions and to describe just what is to be measured In the System 83 and the beta version of the System 85 these templates were made to be adaptive Before any test the template must be defined If you were repeating a test with no changes in conditions you could either call up an old template or call up an old test for replay and use that template If you made any changes to the
31. OP ENABLE MICS Rov lt mca ReeSRS cain Ga lt p nic c at 2N2222 pe V A 3y START R6 R4 Bak 10K A2 N2222 2 V A 34 R Re Ie 10K Q3 eNe2e2 A Each optocoupler 1 4 LTY 847 V LED GND isolated from other ground Revised R25 and R28 04 Mar 2010 Oehler Research System 85 Rev 1 1 Ken Oehler 1171772009 Page 1 Oehler Research System 85 Version 1 1 0 5 19 2011 Page D 1 NOTE MODS213 crystal Adjust gains so that PRESS 1 changed to 3 6666mHz for 7 60 volt peak input exact 66 hHz clock yields 78K psi output U3 at 1 Kpsivvolt scale Set gains for peak pressures ENABLE FIRE AN27 102 ENABLE STOP ANL TOL EIRE 7 MIC 4 ANG 106 ANSATOS Switched 5 from USB AN4 MOD5213 ENABLE MICS IGNDa IGND UM232R R30 1K GND RST ENx g SENS 6 No Jumpers on UM232R ivy L gt J IN OUT N o Switched 5 from USB p IN Ral Oehler Research 470 Revised R25 and R28 04 Mar 2010 Revised Cll and C13 16 Mar 2010 System 85 WAZ RED LED Revised R26 and R29 16 Mar 2010 ey Changed to USB bus power 4 May 2010 Ken Oehler Vv 1272172009 Oehler Research System 85 Version 1 1 0 5 19 2011 Page D 2 Parts List C10 10 Tantalum Cll 0 1 Ceramic C12 10 Tantalum C13 0 1 Ceramic C14 68pf Ceramic C15 68pf Ceramic Cl6 0 1 Ceramic C17 0 1 Ceramic DI LED Lumex SSF LXH1001D JI Deleted J2 RJ 45 Molex 95009 2881
32. SAAMI Most of those who patiently tutored me for many years have now retired Because they retired without writing down much of that they know I ll presume to write a few introductory paragraphs for those new to the game The System 85 combines chamber pressure port pressure action time muzzle velocity target time of flight and ballistic coefficient measurements into a tightly integrated form Parameters are measured together just as they occur together in the real world Along with bits of historical fact and scientific background I try to communicate a philosophy or attitude Chamber pressure measurement is a blend of science black art and common sense There are few absolutes the best we can expect is to reliably distinguish between the safe and the unsafe Pressure measurements are tedious but they must be made Pressures will literally rise up to smite the unwary a Pressure Measurements Beginning with the first firearms shooters have had two big questions What happens at the target Did firing the shot damage the gun Shooters have studied downrange results for centuries They have plotted trajectories by observing impact points at various ranges and they have been able to see the effects of the bullet by examining the targets Recently chronographs and exterior ballistics programs have become common and most shooters can better understand exterior ballistics Shooters have a good idea of what happens in front
33. Stop Shot 1 Time Stamp Field 414 PS B Sample 2 or Burst Stop Shot 2 Time Stamp Field 415 PS B Sample 3 or Burst Stop Shot 3 Time Stamp Field 416 PS B Sample 3 or Burst Stop Shot 4 Time Stamp Block 204 Field 813 Reserved Status Code 1 Q Field 814 Firmware Revision 100 Field 815 Check Sum Field 2 gt Field 812 Field 816 Z Oehler Research System 85 Version 1 1 0 5 19 2011 Page E 4 APPENDIX F System 85 Organization The purpose of the System 85 is to measure various parameters of tested ammunition and preserve the results of these measurements in a form that is easily interpreted by the operator and is recorded for archives and future interpretations The System 85 uses test names for each test The test name consists of a root test name plus a successive group number of various tests fired using this name You must be able to locate the results of previous tests either by shuffling through many printed test reports or by searching in a computer Fortunately the gun and ammo industry has the names and a way to make the first sort of test results test guns and test ammunition The headstamp name is unique concise and universally recognized We urge that test names gun name and ammunition names use a headstamp name as the initial characters To conserve space on lists and displays we suggest that only numerals and letters be used without spaces or symbols For instance 308Win 7RemMag 7RemExp 300WSS
34. against contamination such as oil or water 7 Transducer calibration 8 Read Out System calibration W The preceding list applies to measurement of chamber pressure using conformal transducers in test barrels under laboratory conditions They worry about problems most shooters have never considered Note that the list doesn t begin to address differences between different measuring systems And we thought 56 000 psi was an absolute and reproducible number Oehler Research System 85 Version 1 1 0 5 19 2011 Page 6 Powder Position Any cartridge containing less than a settled full case of powder may produce drastic differences in pressure depending on powder position The industry standard requires that powder be gently positioned near the primer end by using the following procedure 1 Ammo is placed in a loading block with primer down 2 Grasp test cartridge between thumb and forefinger lift from block pause rotate cartridge slowly in a vertical plane until the primer is up pause and rotate until the primer is again down 3 Seat the cartridge gently into a horizontal chamber keeping the primer end as low as possible This procedure is commonly called the SAAMI Twist and is followed religiously Typically powder positioned at the primer end will give higher pressures and velocities but exceptions have been noted Ballistic Coefficient With the proliferation of exterior ballistics programs for personal co
35. age 27 PeakA or PeakB The observed peak pressure of the two channels These pressure numbers include the correction for transducer offset and reference firing TimeA or TimeB The time from Fire signal to the peak pressure If no Fire signal is recognized the times will be measured with respect to the time that PressureA signal crossed 0 95 volts AreaA or AreaB The area under the pressure curve measured over the duration of the pressure measurement window Numerical units are psi milliseconds RiseA or RiseB The time in microseconds from the 25 point to the 75 point of the pressure curve It is an indication of the powder burning rate Pressure Curves The pressure curves provide information on both the pressure and the instrumentation You want to see relatively smooth curves without excessive peaks or noise If you see extra peaks or humps on the pressure curve fire some ammunition which has proven stable in the past Acoustic Target The large square in the upper corner of the screen represents the acoustic target As you shoot a small square shows the location of your group within the large square The target popup window shows a zoomed view of your group The grid squares start at 0 25 inch with your first square and will increase as required to show all the shots in your group The group size extreme spread in inches mean radius and the group radial standard deviation are shown in the window If the
36. ain gage on your gun and have tested a few lots of ammo select several boxes of one uniform lot to be your own private reference ammo Save this ammo with its firing records for future use whenever you question the performance of your system If you then fire a few more rounds of your private reference ammo and the results are consistent with earlier results you will have renewed confidence in your measurement If the ammo gives results that are inconsistent with earlier data you know that there s a problem CAUTION Stay alert for the classic indications of excess pressure head expansion expanded primer pockets difficult extraction or other evidence of yielding brass Do not push your loads to approach the published pressures if you see any indications of excess pressure If your readings taken in a sporting barrel ever exceed what is reported as maximum product average you may be approaching the pressure of proof ammunition fired in that same gun BACK OFF Factory Pressure Limits In books or magazines you may see reference to the working pressure maximum product average pressure or other terms gleaned from ANSI SAAMI standards While the numbers quoted may be correct they can be misleading if you don t abide by all the fine print included in the actual standards The fine print defines the procedures and equipment which must be used to measure the pressures and it defines the required statistical analysis Unless
37. and each pressure curve Use the scroll bar to see up to twenty rounds of the test Oehler Research System 85 Version 1 1 0 5 19 2011 Page 24 Across the top of the Testing Display are seven buttons The Main Display button returns you to the Main Display window The Omit Restore pushbutton will alternately omit the data from a round from the summary or it will restore the data from a round to the summary Omitted rounds will have a line drawn through the numeric data and will have no pressure curves If any line of shot data is overwritten by lines or dashes it is considered to be omitted from the summary When the System 85 detects known abnormal data it will automatically omit that shot from the summary We use a special logic on the omit function If the last shot is shown as omitted on the display the next shot will erase and overwrite it This allows you to cleanly forget those shots obviously caused by warming rounds by a known false trigger or other such goof Any previous shot or shots can be omitted removed from the summary but they will not be erased You can t remove all evidence of a shot just because you later decide that you don t like it The data may be trying to tell you something even if you don t recognize it now The Summary button pops up a window including a summary of all valid rounds fired Summary for test M76 Standard Test x Muzzle 220ff 8 Target Pressure
38. and perpendicular to the path of the bullet If the microphones shift even fore and aft as you fire a group the apparent impact points will also shift and the target system looses accuracy Connect the cables from the microphones to the inputs of the downrange amplifier box As viewed from the gun the microphones are designated A D B Cc If signals from microphones are crossed the groups may appear flipped inverted rotated or as a single line Oehler Research System 85 Version 1 1 0 5 19 2011 Page 32 CHAPTER 6 Miscellaneous Topics Proof Channel m There is nothing more frustrating in testing than having a velocity reading near what was expected but still questioned Was it the ammo or was it the instrumentation Screens work well under most conditions but under certain conditions there will be errors If you haven t yet found these conditions you will Errors are seldom and we expect that users will forgive the system if the System 85 indicates those shots that may contain errors Ifthe numbers in the Proof Channel columns labeled PRF are unusually large or erratic you know to look for problems in the velocity measurement A large number in the Proof Channel can be caused by inaccurate screen spacing more than 0 2 inch error in mounting distance screens not parallel shooting a small bullet too high in the screen window shooting too near the sides of the window instead of centered muzzle blast ahead of
39. at you will get three different average velocities and average pressures The pressure numbers so casually mentioned with great authority are not absolute they are approximate and they depend greatly on the gun or barrel used The ANSI SAAMI test procedures used by the major US gun and ammo makers have evolved over many decades of gun and ammo testing The ultimate purpose of these procedures is to assure that all the ammunition loaded by the ammo makers will function safely in all guns which have been produced in accordance with the same family of specifications The ANSI SAAMI specifications define a system of measurement techniques and very specific test procedures tight specifications for test barrels and cooperative assessment procedures in which samples of large lots of selected uniform ammunition are fired under ideal conditions in many different labs What you don t find in the ANSI procedures is any claim that the pressure numbers are absolute even under laboratory conditions and you certainly won t find any claims that the quoted pressure values are directly applicable to any individual gun Relative Pressures The pressures measured in any specific gun with the either piezo transducer or strain gage apply only to that gun You can use the pressure numbers to compare different ammo fired in the same gun with the same instrumentation Pressures in sporting guns will typically be lower than pressures of the same ammo fired i
40. ches the coordinates are typically accurate to 0 1 inches If each side is 120 inches the coordinates are typically accurate to 0 2 inches At lower velocities say 1400 fps the system still works but accuracy is reduced A major benefit of the acoustic target is in the measurement of ballistic coefficients The shooting window at the target is huge when compared to photoelectric screens Although the window is big you must still measure distances from muzzle screens to the target with high accuracy It s desirable to measure these distances to an accuracy of 0 1 or 1 part per 1000 If you don t know your 100 yard distances to within a couple of inches or your 1000 yard distances within a couple of feet it s not good enough Oehler Research System 85 Version 1 1 0 5 19 2011 Page 9 CHAPTER 2 Quick Tour Instructions The best way to learn this system is to install the program in your computer and play along as you read these instructions Replay some of the tests we ve already fired print them out and then pretend you re setting up and firing tests of your own You won t break anything Operating from Windows 98 NT 2000 XP Vista or 7 exit from all other applications and install the System 85 software provided The System 85 program will start with a title window over the main display Just hit the OK button to remove the title window System 85 Main Display mises Taca Berea Oem Bowe RTE Z
41. conditions gun information or load information Oehler Research System 85 Version 1 1 0 5 19 2011 Page 13 SE x Cor i Equipment Diagram R 30 0 in GunefTest Gun GY Load Tost Load Muzi to Sert 5 0 feet Aas eau sick a erial 1123456 ulle Seri to Sa3 f10 0 feet t i i 1 Bci idl ts Trofeo Tka Vel Correction 3 tps G Press Correction 0 PSI Target Size 0 0 inches Tomporature fs F Xducer AID Xducer A bior e en L e Humidity 7a x Offset Press o Lot Number Test tot 123 Atitude p feet POPross p 0000 Primer test Primer J Bare pel lA Hg Press Volt 10000 _ PS Brass Test Prass 0000 PressVolt 10000 c Max Avg Press 12345 Time Scale 2 j Msec m Avg Velocity 1231 Test Date Test Time i601 POTAS R Main Display Parameter Entry We check and change the parameters from top to bottom left to right The tab key naturally moves you this way The test name is very important The name with the group number is used as the file name when the test data is stored in Excel or pdf format The appropriate generic extension is appended to the test name The test name is limited to thirty characters to prevent bloated file names It is the responsibility of the user to define a naming convention You may end up with hundreds or thousands of test reports stored in a single folder When you look for a report or data for a particular test
42. d Target 3 20 pAB my trgt 4 8 2010 Test Load 46 Press A amp B and Target 4 2 pAB my trgt 4 19 2010 Test Load 17 Simulated Press A amp B 1 20 pAB my 3 25 2010 Derant Load E Replay Test List Here is a list of the previously fired tests Highlight the test your want to see and initiate the replay of that test with either a double click on the selected test or a click on the Replay button after a test is selected Xa Main Display 3 OmivRestore EI Summary IE Pressure OQ Target Hels e 20 0 ft e si sz so Muzzle 5 0 t sle 10 0 t 1 Test Name Press A amp B and Target Group 3 i Edited Shots 20 Tost Note 20 0 ft Target Pressure Pressure Rnd Veli3 TOF2T Vel T BC Hoz Vert PeakA TimeA PeakB TimeB 2134 0016 07 2 2 69950 505626676800 5056272 i 3 2114 0 015 24 2 0 60050 615522670792 6155241 4 2142 0016 11 3 1 59950 177228470739 1772314 5 2173 0 018 2 0 0 0 50000 1 2455070854 1 245511 6 2088 0 014 16 19 50000 230924371 8 2309256 7 2131 0 016 11 40 50000 873244 8 2119 0 015 26 24 40000 1 02125 9 2172 0 018 04 3 40000 2551491 10 2157 0 017 0 2 20 30050 87113 2113 0015 19 30025 23 Replay Test Window This is the test screen that you would have seen at the completion of the firing You can see the schematic of the test setup the group on the target the numeric value of each test parameter of each shot and each
43. e typical response with no filter single pole filter two pole filter and three pole filter Note that the example pressure curve is typical for a 5 56 mm cartridge In this instance and typically with other bottle neck cartridges the response of the case mouth transducer essentially begins at a pressure 70 to 80 of the observed peak With this situation the pressure curve has adequate time to recover from any filter induced overshoot and reasonably represents the peak pressure observed When the 9 mm Luger or similar cartridges are tested with a case mouth transducer the overshoot can degrade the accuracy of the observed peak The overshoot can occur at approximately the time of the pressure peak and the two cannot be separated If the case mouth transducer is not exposed to the peak pressure both before and during the peak no amount of faster rise time or filtering can improve measurement accuracy All things considered we urge the use of the single pole 22 kHz filter in the System 85 for all routine measurements It does not change the general shape of the pressure time curve by introducing overshoot and it does a reasonable job of attenuating high frequencies This is the default setting of the System 85 and the presence of the filtering is noted on the test reports All data is stored in its unfiltered form If your system includes a single pole filter then leave it in place The 22 kHz filter normally does not inter
44. fere If your system includes a higher order filter beware of overshoot Oehler Research System Version 1 1 0 5 19 2011 Page G 1 With no filter the high frequency noise is apparent There is no overshoot in response to Filter off the fast rise time HE Round 1 PSI Div 20 000 us Div 200 With a single pole filter the high frequency noise is greatly diminished Again there is no Filter on 1 pole Par overshoot in response to the fast rise time H Round 1 PSI Div 20 000 us Div 200 With a two pole filter the high frequency noise is completely obscured You now can see a Filter on 2 poles slight overshoot in response to the fast rise time Round 1 PSI Div 20 000 us Div 200 With a three pole filter the overshoot becomes even more apparent Filter on 3 poles sass sense Round 1 PSI Div 20 000 us Div 200 Oehler Research System Version 1 1 0 5 19 2011 Page G 2 If you must change the default filter settings you can do so by modifying the Sys85param ini file contained in the program folder The usual precautions apply save a backup copy and use Notepad to edit the file In the Sys85param ini file you will find a section titled Program Behavior and the lines FilterPressureA True FilterPressureB True If the statements are True then the filters will be applied If the statements are changed to False then the filters are disabled You will also find a line
45. he potentiometer R24 located on the circuit board adjacent to pressure inputs Reduce the peak amplitude of the applied input voltage The output readings should track within approximately 100 psi or 0 1 of full scale l Verify System Timing Initialize the system software to measure muzzle velocity only three screens Set the distance between screens 1 and 3 to 10 feet Apply nominal 12 volt pulses to FIRE START MID and STOP inputs The time between pulses should be between 1 and 10 milliseconds and should be precisely known Select and double click reported line to view diagnostic screen Raw times should correspond to input times within 0 1 plus 1 microsecond Calculate the expected velocity by dividing 10 by the known time The displayed velocity should agree within 0 1 plus 1 fps Initialize the system to measure both muzzle velocity and acoustic target Apply nominal 12 volt pulses to FIRE START MID STOP and MIC inputs If the timing of the signals is not consistent with expected exterior ballistic behavior then the system will not display target information directly You must highlight the observed line of test results and double click to view the diagnostic screen The times reported on the diagnostic screen should be consistent with the input pulse timing to a tolerance of 0 1 plus one microsecond The Oehler Model 76 Firing Simulator is an ideal source of test signals for calibration
46. ie foe view Printout p 23 5 ft Acoustic Equipment Diagram 5 0 hR 10 0 1 Gun est Gun Mig Model Caliber n Vel Correction Press Correction Xducer A ID xducer At Otist Press JPST Press Volt 10000 _ PSI Xducer B ID X duce D2 Popre mn ProssiVolt Main Display The main display shows the test set up and conditions the description of the gun and description of the tested load From the main display you can select the Replay action with the pushbutton H Test fil in_s85 TestData 585 3 2 a Load Burst Test 11 Burst rate TE 0 Default Load 11 Burst Test 13 26 Burst rate 3 25 2010 Default Load 12 Burst Test 14 400 Burst rate 3 25 2010 Default Load 13 Burst Test 17 40 Burst rate 3 26 2010 Default Load 23 Burst Test 18 20 Burst rate 3 29 2010 Default Load i6 Burst Test 20 31 Burst rate 4 4 2010 Default Load 42 M76 Standard Test 1 6 pAB my trgt 4 13 2010 Test Load 44 M76 Standard Test 2 4 pAB mv trgt 4 13 2010 Test Load 45 M76 Standard Test 3 3 pAB my trgt 4 19 2010 Test Load 47 M76 Standard Test 4 20 pAB my trgt 4 19 2010 Test Load 48 M76 Standard Test 5 10 pAB mv trgt 4 27 2010 Test Load 49 M76 Standard Test 6 5 pAB mv trgt 4 27 2010 Test Load N 4 Press A amp B 4MS Target 1 20 pAB mv trgt 4 4 2010 Test Load 24 Press A amp B and Target 2 20 pAB my trgt 4 7 2010 Test Load 7 Press A amp B an
47. ile New load file and New test file options allow you to create the new files for any of the three functions If you do a lot of tests you will probably want to start segregating different types of guns loads and test data into different test data files For example you may want to reserve certain names for networked files of standard test barrels guns standard cataloged ammo loads and output data from standard tests Users may generate local files for nonstandard tests and conditions Test Button The Test pushbutton starts an actual firing test It will establish handshaking between the PC and the System 85 If handshaking cannot be established the most common causes are USB cable not properly connected or the S85 not powered After communications are established you will see the diagnostic screen By the time you get to the actual test screen there isn t much to do except shoot when the light is green Printout Button The Printout button of the main display is used to print or to view the results of fired tests Select the test your want to print or view from the list Hint The right mouse button will easily take you back to the last test you selected You often want to go there After one or more tests are selected for printing hitting the PrintOut button will bring up the Report Setup screen It will default to showing a preview of the printed report on the screen If you want a real printed copy of the report
48. ily changed by selecting from a list of 3006 standard load files After making the appropriate selections the operator will have the freedom to make changes to the templates any changes made will be reflected in the printed test report and exported data If changes are made to the template the operator will be given an option to save overwrite the existing template If the operator elects to overwrite he will be prompted Are you authorized to make this change Only if the operator claims authorization will the original template be altered The operator may use the edited template during his test session without saving it but the template will revert to its original form for later tests We envision a structure of test templates gun files and load files in which the operators have the freedom to make required changes but are restricted from making inadvertent changes Just as Windows has administrators users and guests we envision a similar protocol for use of the System 85 We feel ham strung by the Vista requirements for administrator permission for relatively minor changes but we do appreciate the warning that we are making potentially damaging changes The System 85 will give the warning but it won t tie you hands We envision that the master test templates would be established by supervisors or proven capable operators These templates will be stored locally in the tunnel where they are used
49. ional Offset PSI PSI For conformal transducer use the offset value from the transducer calibration For gas transducers offset is usually zero PCPres PC PSI Enter the transducer sensitivity This optional value is recorded for the convenient use by the gunner in setting the charge amplifier Press Volt PSI V Enter the output voltage scale factor of the charge amplifier in PSI per volt This value is essential It need not be restricted to the typical 2000 5000 or 10000 values but can be set at odd values to accommodate voltage mode transducers Entering Load Data Load data will be reused many times Again it will be to your advantage to learn how to save and store loads in the load file We would expect normal production loads to be stored in a networked load file Load Name As with guns we prefer to start load name with the numerals of the headstamp designation followed by any required alpha character a space and the bullet weight in grains This grouping makes it easier to find loads in the list You may want to use catalog numbers or other product identification Bullet Mfg This is optional BulletWgt Gr This is optional Bullet Style This is optional BC The button to the left of B C can be used to select the drag function used Use the G1 function unless you understand drag functions and have good reason to use another See Appendix A The actual number entered in the box is the
50. isplay Setup Options Test Button Printout Button Replay Button Options Button Includes English Metric switch Tools Button Includes Export to Database Close Button Entering Test Setup Entering Gun Data Entering Load Data Testing Display Monitor Screen Testing Display Button Functions Summary Window Pressure Window Target Window Diagnostic Message Measurement Channels Burst Rate and Muzzle Velocity Setting Up and Troubleshooting Hints Connecting System 85 and PC Fire Signal Muzzle Screens Pressure Inputs Acoustic Target Miscellaneous Topics Proof Channel Subsonic Velocities Oehler Research System 85 Version 1 1 0 5 19 2011 Table of Contents Page I Page 1 Page 10 Page 17 Page 23 Page 29 Page 32 APPENDIX A APPENDIX B APPENDIX C APPENDIX D APPENDIX E APPENDIX F APPENDIX G Drag Tables Correcting Data Calibration Schematics and Parts List Firmware Protocols System 85 Organization Pressure Filtering Revision History 09 23 2010 Added discussion of test names and templates Added information on filters Software Version 1 0 1 05 19 2011 Added English Metric switch to Options reflecting software Version 1 1 0 Oehler Research System 85 Version 1 1 0 5 19 2011 Table of Contents Page II B 1 C 1 D 1 E 1 F 1 G 1 CHAPTER 1 Background Information Why This Chapter For many years I was the junior kid among the gray beards of
51. it will be more convenient if the computer sorts the file names into similar groups We suggest that the ammo headstamp name without spaces or punctuation form the initial part of the test name Following the headstamp we suggest that you indicate the nature of the test For instance PV could indicate chamber pressure and velocity PPV would indicate chamber pressure port pressure and velocity PVT would indicate pressure velocity and target Following the nature of the test we d suggest the bullet weight in grains Each user and installation will have its own preference of the hierarchy in test names It s your decision The computer doesn t care what names you use but it will use its standard rules to sort them Think about it before you start Enter the test conditions in the left column Don t worry about correct date and time they will update when a test is fired Advance to the Gun column Again plan ahead when choosing a gun name We always start with the first few letters of the headstamp no punctuation or spaces and then add descriptors as needed Getting all your 308W barrels in one group helps you locate any specific gun Mfg Model Caliber and Serial are memo fields to the System 85 but you might use them in Excel to analyze the Excel data to determine such information as total rounds fired through a barrel The Vel Correction and Press Correction are assumed to be the results of barrel assessments and a
52. ity and either the velocity lost over a specified distance or the time required to travel that distance If you measure velocity lost to an accuracy of 5 your ballistic coefficient will have an accuracy of approximately 5 at the velocity tested As an example assume that you have a velocity loss of 200 fps representing a typical big game bullet traveling 100 yards To measure the velocity loss with 5 accuracy requires an error of less than 10 fps out of 200 fps Using chronographs at both the muzzle and at 100 yards you have an error budget of only 5 fps at each chronograph That s an accuracy requirement of 0 17 at 3000 fps It can be done but it takes good equipment a wide screen spacing and a careful operator It is often preferable to measure ballistic coefficient using the muzzle velocity and measured time of flight It is usually easier to measure time of flight to an accuracy of better than 0 17 than it is to measure velocity at a long range to the same accuracy You will find that making reliable ballistic coefficient measurements is approximately ten to twenty times more difficult than making routine velocity measurements What is an insignificant error in technique or recording conditions for normal velocity measurements can destroy the integrity of your measurement of ballistic coefficients If you doubt it just measure the ballistic coefficients from the same box of bullets with three setups on three different day
53. l data file are raw digitizer output and are unfiltered If unfiltered data is required it can be read from the exported data file See Appendix G for additional discussion of filtering Oehler Research System 85 Version 1 1 0 5 19 2011 Page 30 Acoustic Target The acoustic target is shipped as a set of four microphones four short BNC BNC cables an 8336 Downrange Amplifier with power supply You must supply a square wooden frame on which to mount the microphones Typical Microphone Frame The accuracy of the target system is influenced by your choice of target size If you make the target larger it will be easier to shoot within the square but target accuracy will suffer You can make the target more accurate by making it smaller but you are more likely to hit a microphone with a stray shot If you are shooting in a square or rectangular walk in tunnel we suggest that the microphones be mounted against the walls or ceiling to form the largest possible square and to allow an armor plate deflector to be mounted in front of each microphone Microphones must be located sufficiently far back from the armor plate that a 45 Mach cone can strike the microphone If you are shooting through a reduced diameter tunnel into a target room we suggest a frame with the sides of the microphone square is equal to the inside diameter of the tunnel This will hide the microphones from the shooter The actual microphone elemen
54. ll Large bad Target Clicking on the Target button opens a window with a larger view of the acoustic target Within this window you can select the hole size to provide a realistic view of the target and you can select between two sizes of target windows Again the window can be left open during an actual test to watch the target develop The last shot is colored green and the X denotes the group center Clicking on any hole will select and highlight the corresponding round in the test data The Omit Restore pushbutton will alternately omit the data from a round from the summary or it will restore the data from a round to the summary Omitted rounds will have a line drawn through the numeric data and will have no pressure curves The Main Display pushbutton returns you to the Main Display window In this window you can observe the complete set up conditions for the test you just replayed The left hand column contains the administrative information on the test The middle column includes all the essential information on the gun and transducers The right hand column contains the information about the ammunition Oehler Research System 85 Version 1 1 0 5 19 2011 Page 11 The size of the primary windows is fixed at 800x600 They are not scalable If your display is at least 1280x800 you can take advantage of the extra room by leaving the summary target and pressure windows open The latest pressure curves and
55. mputers you now see a lot of discussion about ballistic coefficients You can make the idea of BC very complicated or keep it simple We like the simple version Years ago the commercial firearms and ammo people decided on a standard model to describe the exterior ballistic performance of sporting ammo They chose a drag function named G1 to represent typical performance of a sporting bullet While G1 drag function sounds impressive it s only a table showing how fast the standard projectile is losing velocity versus the momentary velocity of the projectile Ifa tested bullet loses velocity twice as fast as does the standard bullet it has a BC of 1 2 or 0 500 If the tested bullet loses velocity three times as fast as does the standard bullet it has a BC of 1 3 or 0 333 If the tested bullet loses velocity at the same rate as the standard bullet it has a BC of 1 1 or 1 000 If the tested bullet retains its velocity better than the standard bullet it has a BC of greater than 1 000 To measure BC you must know both how fast your bullet is going and how fast the bullet is losing velocity Suppose that your bullet starts at 2500 fps and loses 312 fps in 100 yards The standard bullet loses only 84 fps starting at the same velocity under the same atmospheric conditions The BC of your bullet is approximately 84 312 or 0 269 BC computations are complicated because ballisticians don t just talk about a standard bullet They also assume
56. n a standard test barrel because the test barrel is intentionally made tighter than typical sporting barrels Just as some barrels shoot accurately and some won t the same ammo builds different pressures in different barrels We ve already discussed the unresolved differences between copper units of pressure and transducer peak PSI Separate standards and procedures have been established for crusher and transducer measurements and either can be acceptable The British have long had their way of measuring pressure but translating to American units is more than simply translating tons per square inch to pounds per square inch Similarly the members of the CIP the organization of European proof houses have their own procedures and standards Their results will not directly translate to either the American or British results Proponents of each of the standards may claim that theirs is the final word but the fact remains that there is no real translation between them Each can be used to make valid comparisons within one system and none is accepted by all others as being the gospel truth In other words each standard is really relative You can make valid Oehler Research System 85 Version 1 1 0 5 19 2011 Page 3 comparisons between numbers gathered using any one standard but you are asking for trouble if you try to make translations between systems or compare results gathered using different standards There is one common denominat
57. n English metric The English Metric Units is a powerful feature hidden in this menu If you customarily work in English units you will leave it set for English If you customarily work in metric units you will leave it set for metric The same software is used for both Observed times and voltages are recorded independent of the desired display units Even if you customarily work in English units you can select Metric Units exit the program and then restart The program will restart in metric units and any subsequent tests or replays will appear with the display report and export data in metric units You can get reports and exported data in the proper form expected by your continental buddy Similarly if you customarily work in metric units you can generate reports to please your U S friend Information i The change From English to Metric units occurs only after you close and restart the System 85 program You must close and restart to convert between systems of units Printout options affect the content and appearance of the printed reports Enable report data export on replay allows the export of both report and data during replay This function is especially useful if the test template has been changed to include measurement channels not included in the original report Report options allow choice between the standard report a raw data report useful in diagnosing malfunctions and a multi report summary to summari
58. number of shots between the times In the burst rate mode you can still access the summary In the statistical summary the average rate of fire is computed as the average of all the individual rates of fire Oehler Research System 85 Version 1 1 0 5 19 2011 Page 29 CHAPTER 5 Setting Up and Troubleshooting Hints Connecting the System 85 and the PC Only one cable is required to connect the System 85 and your PC Use a standard USB cable with a Male A connector on the PC end and a Male B connector on the System 85 end The System 85 gets its power from the USB bus The System 85 properly negotiates with the USB bus to receive up to 200 ma It must be connected to either a powered USB adapter or a USB port on the computer Fire Signal In order to measure action time the System 85 expects to see a Fire signal This signal can be from an external transducer delivering a nominal 12 volt signal to the Fire input A separate input is provided to interface directly with a short to ground switch located in the test gun This input is very tender Applying any voltage even a 12 volt signal to this input can damage the System 85 Each System 835 is shipped with a BNC cap on this connector Uncover this connector only when it is properly used Muzzle Screens Mount the muzzle screens at the desired locations Use of the third proof screen midway between start and stop screens is optional Connect to the START M
59. of the items mentioned can be taken to a scale and weighed you can repeat the comparison by weighing each item on a second scale You can even calibrate the scales it s simple to use a check weight Oehler Research System 85 Version 1 1 0 5 19 2011 Page 2 Chamber pressure readings are more complicated than weighing a brick of butter You can weigh and measure a loaded cartridge all you want to you can fire dozens of loaded cartridges from the same lot in tightly specified pressure guns under controlled conditions you can plead with the gods and IRS but you still can t tell how much pressure the load will generate when fired in your gun You may read that the pressure of a certain load is 56 000 psi You must not assume that the 56 000 psi is an absolute number If the number is quoted for factory ammo you know that similar ammo was tested in accordance with ANSI SAAMI standards and that there is little chance that the pressure of the ammo fired under ANSI SAAMI specified conditions will exceed the 56 000 psi The 56 000 psi number by itself does not tell you the pressure that will be generated when you fire the ammo in any specific test barrel or gun The pressure generated by the round depends greatly on the gun in which it is fired and the test conditions Individual chamber and barrel tolerances are critical Even if you use three identical rifles with consecutive serial numbers or three SAAMI spec test barrels I ll wager th
60. oint only slightly at 400 yards But the same change in ballistic coefficient can change 400 yard energy and wind deflection significantly Acoustic Target Oehler has been making acoustic targets for measuring the apparent impact points of supersonic bullets since 1982 These systems are used extensively by the military and major defense contractors The principle of the acoustic target is simple Any supersonic projectile carries with it a Mach cone or sonic boom Four microphones detect the time at which the Mach cone arrives at the target Given the location of each microphone the speed of sound in air and assuming that the bullet travels perpendicular to the target it is possible to compute the apparent path of the bullet The System 85 records the initial velocity of the bullet with a set of photoelectric screens and it also records the time required for the bullet to travel from the muzzle screens to the target Knowing the exact distances involved we can compute the remaining velocity at the target and accurately compute the ballistic coefficient Accuracy of the acoustic target is best with higher velocities typically over 1800 fps At higher velocities the Mach cone is sharp and skinny this allows good accuracy in computing the target impact coordinates We observe typical accuracies for the four microphone system to be in the order of 0 15 of the side of the microphone square For example if each side is 60 in
61. or linking common pressure measurement standards You must use a special breech or you must drill a hole in the barrel at the chamber to mount a transducer or install a piston for a crusher Many systems also require a hole to be drilled in the brass cartridge case Strain gages may be used on many sporting guns and it does not require any holes be drilled The strain gage estimates the pressure by observing how much the barrel stretches over the chamber The strain gage is not intended to replace standard ANSI SAAMI procedures and equipment The strain gage with a System 83 is intended for use to estimate chamber pressure in sporting guns The Model 83 and a strain gage can be used in industrial applications to estimate chamber pressure in sporting guns when the conventional test barrels and transducers are not available or applicable It will closely estimate pressure in that specific gun Nothing else will Reference Ammo Reference ammo is widely used within the ammunition industry It is typically a uniform and large lot of common production ammo that is designated as reference ammo only after its pressure and velocity have been properly assessed at several different test facilities using ANSI SAAMI approved equipment and procedures The aggregate value of both pressure and velocity as determined by the many tests is assumed as the standard Reference ammo is then fired in each individual test barrel to determine the correction fact
62. or that must be applied to tests using that particular barrel Reference ammo is not proof ammo The pressure and velocity of reference ammo normally falls within the range of that allowed for production ammo The pressure of proof ammo is normally at least 30 greater than that expected from any production ammo When hearing about the measurement of pressures with sporting barrels and strain gages some users want to use reference ammo to calibrate their system The assessed pressure and velocity of the reference ammo is valid only when the reference ammo is fired in test barrels meeting all ANSI SAAMI specs using ANSI SAAMI procedures and instruments The value of reference ammo is not simply the ammo itself but in its controlled use within the framework of the ANSI SAAMI specs Reference ammo used in testing does not establish a reference of pressure Instead it establishes the response expected from the mythical average test barrel That is why the corrections derived from the use of reference ammo are referred to as barrel corrections and not transducer corrections measurement corrections or absolute corrections Oehler Research System 85 Version 1 1 0 5 19 2011 Page 4 Firing reference ammo in a sporter as a calibration for the strain gage is only marginally better than using readily available commercial ammo What can be more important to you is the use of your own private reference ammo After you have installed a str
63. ostic window amp Diagnostic Message No pressure data recorded a lt lt lt Raw Data gt gt gt Fire and Pressure A cables false Baa unhooked Fire time ore In this case a 0 value for Screen 1 0 Screen 1 is valid and thus Screen 2 2011 the MV and target data are Screen 3 4022 correct Microphone A 12068 Microphone B 12068 Microphone C 12068 a Microphone D 12068 Diagnostic Message The diagnostic message shows the times at which various critical events occurred It is especially useful for isolating problems with sensors All the times shown are in microseconds and are referenced to the first recognized event Ifa Fire signal is used the time at this event will be zero The next event expect is Pressure A crossing it s detection threshold These signals will be followed by signals from the muzzle screens and the target microphones Any expected event that did not occur is represented by The Help button is available for those hints you need to keep going The Test Note button can be opened at any time before during or after the test The only restriction is that you must make your notes before you ask for a new group This is the ideal spot for any alibis or other notes These notes will be printed on the test report and will be available during any replay Notes can be added or modified during replay If you make any changes in distances or other data during a
64. pon receipt of a character the firmware determines if it is a valid command Invalid commands are echoed back The firmware then loops back into the Ready state Valid commands are echoed back The program executes the appropriate measurement routine Three tasks require further information from the PC All Measure Pressure and Measure Burst Rate of Fire Upon entering one of these routines the System 85 polls for an 8 bit binary integer value The All and Measure Pressure routines accept only the values of 2 or 4 corresponding to the desired pressure measurement time window in milliseconds All values are echoed The Burst routine accepts values from 3 to 255 All other values 0 1 and 2 are rejected All values are echoed This value in milliseconds is used as a delay or hold off time between rounds of a burst Upon completion any command the System 85 returns to the Ready state During the execution of any command the System 85 frequently checks for an Abort command Upon receipt of the Abort command the System 85 builds an appropriate Data Dump Set for return to the PC signals the PC with an R and enters the Ready state in anticipation of a command to dump data Communication Protocol for Data Dump The date file is organized in Blocks and Fields Each block contains four Fields See file format definition below lt Block 1 S D gt Block 2 gt l
65. r This represents the pressure signal observed at a down barrel gas port Amplitude of this signal is nominally 5 volts but is not closely controlled It is primarily intended to verify the measured time between the fire signal and the peak pressure observed at the down barrel port The PRESSURE A signal can be used for precise amplitude calibration START The start signal represents the signal generated by the first muzzle velocity screen It occurs 3 milliseconds after the fire signal The pulse is 12 volts one millisecond long via BNC connector MIDDLE The middle signal represents the signal generated by a velocity screen located midways between start and stop velocity screens It occurs 5 milliseconds after the fire signal The pulse is 12 volts one millisecond long via BNC connector STOP The stop signal is represents the signal generated by the last or stop velocity screen It occurs 7 milliseconds after the fire signal The pulse is 12 volts one millisecond long via BNC connector MICROPHONES This set of four signals represents the response of the four microphones of an acoustic target located downrange The four signals occur 15 milliseconds after the fire pulse and represent a center hit on the acoustic target The pulses are 12 volts one millisecond long via RJ 45 connector Oehler Research System 85 Version 1 1 0 5 19 2011 Page C 2 APPENDIX D Schematics and Parts List ENABLE FIRE ENABLE ST
66. re the more the lead cylinder is deformed The crusher gauge is calibrated by using pure lead cylinders of specified height and diameter Cylinders from each lot are subjected to static compression tests A chart is made showing the deformed height versus the applied force or pressure equivalent After a shot is fired and the deformed crusher is measured this chart is used to translate the height of the crusher to the pressure of the shot A century later the lead crusher gauge remains a reasonable way to measure peak pressures typical of black powder guns and shotgun Readings made with lead crushers correspond remarkably well with readings made with modern transducers There are slight differences and the measurements made with the lead crushers are tagged with the units of LUP Lead Units of Pressure instead of PSI For most practical purposes and handloader decisions you need not worry about the differences between the two With the advent of modern cartridges and smokeless powders pressures went higher At higher pressures the lead cylinders deformed too much Cylinders made of pure copper replaced the lead cylinders The higher pressures occur faster and they are harder to measure During the last twenty years piezoelectric transducers have replaced copper crushers in most chamber pressure measurements With two different methods to measure chamber pressure users had two sets of pressure readings and the readings did not ag
67. re included in the numeric peak pressure and velocity results reported by the System 85 The Xducer A ID is a memo The Offset Press is from the conformal transducer calibration and is included in the peak pressure numbers The PC Press is a memo so that the gunner can set the charge amp properly The Press Volt is used to convert input voltage to an apparent pressure After you have completed the gun column click on the little diskette button and Save your gun in the gun file Next time you want to test with that gun use the same button and Load the gun information As with the guns we assign load names starting with the headstamp We usually enter bullet weight as the second item of the load name and we don t bother with entering decimal points hyphens mms or grains You might want to use product numbers or similar After a load is entered use the diskette button and Save it It s easier to use the diskette button and Load a similar load and change one parameter than to enter a new load from scratch The button adjacent to B C selects the drag function used in the B C computation We urge you to stay with G1 unless you have urgent reason to change All other entries for the load are considered memo Oehler Research System 85 Version 1 1 0 5 19 2011 Page 14 Much of the information entered for gun and load is not critical for testing but it is critical for test documentation You may not appreciate it now but you will ble
68. ree Pressure readings that had been accepted as the exact gospel truth for decades became suspect Copper crusher readings had been assumed to represent peak pounds per square inch for many generations but now there was another system also measuring peak pounds per square inch Copper crusher readings and peak PSI readings from transducers are not interchangeable Regardless of conversion charts or graphs you may have seen which pretend to offer a conversion between CUP readings and transducer peak PSI there is no easy conversion Ballisticians have fired hundreds of thousands of rounds seeking an easy correlation They haven t found it yet and they won t As a result readings taken with copper crushers are tagged with the designation CUP for Copper Units of Pressure and the PSI designation is reserved for readings taken with transducers It is possible to predict CUP readings from transducer data but you must use the total transducer pressure time curve and not just its peak value The prediction of CUP values from transducer data is available only with the Oehler System 82 Ideally chamber pressure readings should be absolute We are all spoiled and accustomed to absolute measurements of common items If you buy a pound of powder you expect to get an amount that weighs exactly the same as a pound of butter from the grocery store or a pound of nails from the hardware store Within close tolerances you will be right All three
69. replay it is good practice to record such changes and reasons in the notes Oehler Research System 85 Version 1 1 0 5 19 2011 Page 26 The New group Button After you fire at least one TOF2T shot you can start a new group The data from The time of fight measured in all shots is cleared from the screen and the microseconds from Screen 2 or group number increments as soon as you hit midpoint between Screen I and to the N Use N to start a new group only if you plane of the acoustic target This time is have no comments to add to your existing group corrected to compensate for the delay in and you have no changes to make regarding the bullet s sound hitting the microphone conditions gun or load If you hit N and then as the bullet passes by the microphones exit to the setup screen the setup screen will have the group number of the new group Vel T The velocity at the target It is computed from the distance to the target VEL13 the assumed drag function and the time of flight to the target The distance to the target is critical to the calculation of the ballistic coefficient Measure the distance to target carefully to within a Any time you end a test with the new group button or otherwise the system will automatically write the test report in pdf and Excel to the appropriate folders designated in setup The test name and group number will be used as the file name If the raw report option has been selected then
70. s You will sometimes see mention of BC varying with velocity Don t worry your bullet is not changing as it flies through the air It s just a mathematical trick Measuring a BC at a particular velocity forces the theoretical drag to fit the observed drag at that velocity Just because you ve forced the measured and theoretical drag curves to fit at one velocity doesn t mean that they will fit at other velocities If BCs measured at two velocity levels differ significantly it means that the G1 drag function doesn t fit your bullet exactly Even though the G1 drag function doesn t fit each bullet perfectly it is the common standard and it is the only way we can make meaningful comparisons Sometimes we hammer a square peg into a round hole and admit that we only get a tight fit at the corners Though we may have different BCs over a velocity range it s usually adequate to use an average BC Don t worry about the third decimal place of the BC number it s like quibbling if an estimated range is 391 or 392 yards An unexpected can of worms is opened as more shooters begin to measure ballistic coefficients If ballistic coefficients are measured over short ranges less than 100 yards the observed ballistic coefficients are often lower than published values Some of this loss can be attributed to the fact that at short ranges the bullet may not be fully stabilized and the yaw causes extra aerodynamic drag and a lower ballistic coefficien
71. s so that they can be reliably interpreted The overzealous application of filters to remove the offending noise may also distort or mask the display of the actual pressure event Pioneers in the development of the electronic transducers for ballistic testing advocated use of a low pass 22 kHz Butterworth filter in the charge amplifier We consider this to be sound advice The single pole filter is typically well behaved and does not tend to overshoot in response to a step function abrupt rise time input signal The single pole configuration does not exhibit a sharp cut off at 22 kHz and it may do a less than perfect job of attenuating higher frequency noise The problem of filter overshoot is not apparent with conformal transducers or with drilled case gas transducers In these applications the frequency spectrum of the pressure signal is sufficiently low that the 22 kHz filter is essentially transparent Looking at the filtered pressure time curve you often see little effect other than the desired attenuation of high frequency signals normally considered noise The problem of overshoot becomes much more significant with case mouth transducers Instead of ignition and a smooth build up of pressure the fast rise time of the pressure curve now approximates a step function input Application of a higher order filter can lead to overshoot in the response The set of four pressure curves on the next page of this appendix illustrate th
72. ss it months and years from now when you review your recorded data After completing the entry of data into the boxes of the parameter entry screen finish the process with the Finish pushbutton This will typically bring up a warning that the test name already exists You have the choice of either over writing an existing test template appropriate only if you are authorized to change the master template or proceeding with the test using the edited template Note that this will not change the template or raw data from a previously fired test and it will not change the master template As each test is fired and recorded template in effect at the time of the test is recorded along with the raw data After the template is successfully accepted you will be returned to the Main Display window Push the Test pushbutton to start the test This will establish and check the USB connection to the System 85 PITTI Pressure Outputs AS Begin Test Click Begin Test to start testing Monitor Screen The monitor screen will be displayed You will see a dotted completion bar under the picture of the System 85 front panel as initial checks are performed If pressures are expected oscilloscope snapshots of the quiescent pressure signals are shown Quiescent pressure signals should be flat lines at the bottom of the display If there are haystacks indicating power line interference or if there are stray shapes indicating
73. system did not recognize proper input signals for any measurement channel that measurement will be shown as dashes Highlight the shot and double click to get the computer s guess of what went wrong on that shot If a shot record contains dashes instead of data the shot will be automatically omitted It can be restored and included with the group data by hitting the Omit Restore button before the next shot is fired Statistical Summary The line items in the summary are Avg Average is the average or mean value of the valid shots The average velocity is corrected for reference and the average peak pressure is corrected for reference and offset SD The standard deviation of the valid shots High The highest value among the valid shots Low The lowest value among the valid shots ES The extreme spread or the range between the highest and lowest values for the group Oehler Research System 85 Version 1 1 0 5 19 2011 Page 28 Burst Rate and Muzzle Velocity If burst rate and muzzle velocity are the selected measurements you must answer two extra questions Enter Data For Burst Test Additional Burst Rate Information Maximum expected rate Minimum expected velocity 2800 fps Jf OK You are asked the maximum expected rate in rounds per minute and the minimum expected velocity in feet per second Spacing between Screen 1 and Screen 3 must be at least two feet You must be realistic in answering these t
74. t The apparent ballistic coefficient for the same bullet will be higher if measured after the bullet is fully stabilized Even with a perfectly stabilized bullet the observed ballistic coefficient may be different at different velocities because the G1 drag function doesn t fit every bullet fired with every load While exterior ballistics programs may compute exterior ballistics precisely in accordance with Oehler Research System 85 Version 1 1 0 5 19 2011 Page 8 the G1 drag table the G1 drag table may not fit your bullet This doesn t mean that the G1 drag table should be abandoned No other table fits all bullets either You should use as long a distance as possible in measuring ballistic coefficient Measuring hunting rifle bullet ballistic coefficients over a range of 300 yards is reasonable if you expect to use the rifle at that distance Measuring the ballistic coefficients of long range match bullets over 600 yards is reasonable if you expect to shoot that range By measuring the ballistic coefficients over a long range the BC is forced to fit over that range and it may fit good enough over twice that range On the other hand if you measure ballistic coefficients over only 50 yards and then try to extrapolate out to 1000 yards you can expect huge errors Don t let anyone tell you that ballistic coefficients aren t important With a 200 yard zero a significant change in ballistic coefficient may change the impact p
75. t Field 1 gt lt Field 2 gt lt Field 3 gt lt Field 4 gt lt Field 5 gt lt Field 6 gt lt Field 7 gt lt Field 8 gt Figure 2 All Fields are comma separated All data is formatted ASCII alpha or a formatted 32bit positive integer value 0 through 999999999 The System 85 transfers a Block of data then waits for a command N to transfer the next Block or a Z to abort Data Dump The software can request multiple Blocks to be transferred by issuing multiple block transfer commands After transfer of the final block the System 85 will poll for an acknowledgment Z indicating that the file transfer is complete Oehler Research System 85 Version 1 1 0 5 19 2011 Page E 3 Data File Format Block 1 Field 1 Last Command Measurement completed Field 2 PS A Time Stamp at Sample 81 or Threshold Crossed Field 3 0 Field 4 Field Count 816 Block 2 Field 5 Fire Time Stamp Field 6 Start Time Stamp Field 7 Mid Time Stamp Field 8 Stop Time Stamp Block 3 Field 9 Microphone Time Stamp Field 10 Microphone 2 Time Stamp Field 11 Microphone 3 Time Stamp Field 12 Microphone 4 Time Stamp Block 4 gt 103 Field 13 PS A Sample 1 or Burst Start Shot 1 Time Stamp Field 14 PS A Sample 2 or Burst Start Shot 2 Time Stamp Field 15 PS A Sample 3 or Burst Start Shot 3 Time Stamp Field 16 PS A Sample 3 or Burst Start Shot 4 Time Stamp Block 104 gt 203 Field 413 PS B Sample 1 or Burst
76. t is the hemisphere atop the lollipop mounted on the gray box The microphone element is ceramic and is quite fragile The Mach cone sound wave must hit each microphone directly Mount the microphones on a wooden square frame so that the four balls form the corners of the target square Point each lollypop directly toward the gun Microphone Detail Be sure that the microphones are mounted to wood and use the rubber grommets to provide isolation from shock waves transmitted through the frame to the microphone Mounting the microphones on a metal frame or bracket is an invitation to trouble If paper targets are to be mounted on the same wooden frame with the microphones use a cardboard or cellotex sheet to hold the target Bullets striking the wooden frame can sometimes cause target errors Oehler Research System 85 Version 1 1 0 5 19 2011 Page 31 The system can be made to work at over 1000 yards if you use Category 5 cable typically used for computer networks This cable is readily available and relatively inexpensive for limited use Connections can be made with the connector pin out normally associated with local area networks If the long range installation is permanent we urge the use of the direct burial gopher proof cable commonly used for telephone service The Category 5 cable is adequate for indoor use but is soft and tender Rodents love to eat it The target square should be approximately level
77. tance to obtain the distance from muzzle to microphone Target Size inches Enter data here only when the Acoustic Target is used Enter the size of the target in inches Measure one side of the microphone mounting square from center of red ball to center of red ball Temperature F Enter the current temperature in degrees Fahrenheit Temperature affects air density and the speed of sound both of which are essential to accurate ballistics calculations If you are making ballistic coefficient measurements the temperature should be updated at each test to an accuracy of 2 degrees or better If not measuring BC s then temperature is optional Humidity Enter the relative humidity percentage Humidity affects air density and the speed of sound Humidity has only a slight effect on ballistic calculations Altitude feet Enter the altitude at the firing range in feet above sea level An accuracy of 100 feet is normally sufficient for ballistic coefficient calculations Baro Press in Hg Enter the current reported barometric pressure in inches of mercury If you do not know the current pressure use the standard value of 29 92 Reported pressures are corrected to sea level The program corrects the reported pressure to the actual pressure at your altitude If you know the raw pressure at your location hit the button to the left of the box and the program will then accept the raw pressure Time Scale The time scale for
78. te prior to each test You can continue using an existing test template you can modify an existing template or you can edit an existing template and rename it to make a new template When you are testing each test will probably be very much like the previous one You might change powder charge between tests or the temperature may change or you might grab a different gun but chances are you won t change the whole setup The program works just like that Oehler Research System 85 Version 1 1 0 5 19 2011 Page 12 Setup Pull down List From the Setup pull down list choose the Edit current test template option This will bring up the Setup Testing Template window a Main Display Setup Testing Template x TI Acoustic st Tenge Seon SE SET essu rve Step 1 Select Equipment F Pressure Transducers r Transducer A a Peak Pressure Transducers A and B Time to Peak Time to Peak Muzzle Screens F Rise Time F Rise Time 2Screens F Area Under Curve F Area Under Curve 3Screens gt E Acoustic Target ownrange Target Coordinates F Time Of Flight F Ballistic Coeficient F Time Of Day Fired F Downrange Velocity Equipment ist ure Tra 123 ft Target Pressure Pressure Rnd Veli3 TOF2T Vel T BC Hoz Vet PeakA TimeA Peas Time aE Setup Testing Template In this window you first select the equipment to be used for the test Indicate transducers muzzle velocity screens and aco
79. the bullet is flying in a standard atmosphere pressure temperature and humidity When you measure how fast your bullet is losing velocity at your local conditions you must correct the readings to estimate how much it would lose under the standard conditions This gets very messy and is best left to the computer program Your responsibility is to tell the computer the exact atmospheric conditions at the time of the test and to make sure all test distances are exactly what you tell the computer The System 85 computes ballistic coefficients normalized to the standard conditions of Altitude Sea Level Barometric Pressure 29 53 inches Hg Temperature 59 degrees F Relative Humidity 79 The user should be particularly aware of entering the correct values for these properties during BC tests An error 1000 feet in altitude 1 inch Hg in barometric pressure or 10 degrees Oehler Research System 85 Version 1 1 0 5 19 2011 Page 7 in temperature can each cause a 3 error in the measurement of BC The user surely knows altitude and it won t change in the lab the barometric pressure will hardly change an inch under any conditions and normally varies slowly unless a drastic weather front passes but changes in either outdoor temperatures or ventilation can easily swing test tunnel temperatures by over 10 degrees Be aware of temperature changes The definition and computation of BC hinges around your measurements of muzzle veloc
80. the overall length of the pressure curve is normally set at 2 milliseconds for handguns and rifles It is typically set at 4 milliseconds for shotguns or long barrel guns Date Time The program automatically picks up the time and date from the computer when a test is fired If the displayed time and date are not correct on your test report you must reset your computer s clock Entering Gun Data Most gun data is entered only one time for any gun but it can be edited Learn to use the little load and store icon located immediately to the right of the gun name box It will save much time For the purposes of this program we consider a test barrel with its associated transducer as a gun The entries saved in the networked gun file should be entered by the personnel responsible for transducer calibration and reference ammo corrections The various entries in the gun file are Gun Name Enter the name of your gun We find it most convenient to use the headstamp caliber numbers as the initial characters That way it s easier to find guns in a list Oehler Research System 85 Version 1 1 0 5 19 2011 Page 21 Mfg Model Caliber Serial These entries are optional Vel Correction Enter the barrel correction as determined by assessment Otherwise zero Press Correction Enter the barrel correction as determined by assessment Otherwise zero Xducer A ID Enter the Pressure A transducer model and serial number Opt
81. tic change in ballistic coefficients Change the temperature by a few degrees and you will still see a significant change Change the altitude by a few feet and you might see a slight change Change the humidity by a bunch and you won t see much change Moral of story pay attention to proper measurement of distance to target and to actual temperature Oehler Research System 85 Version 1 1 0 5 19 2011 Page B 1 APPENDIX C Calibration The System 85 may be calibrated with the following procedures Adjust Peak Pressure Response 1 Initialize the system software to measure pressure only In the gun setup set the gage pressure volt to 10000 Set pressure offset and barrel correction to zero Connect source of simulated pressure pulses to the pressure inputs Proceed to the test display with the signal source for the pulses quiescent at zero voltage The System 85 adjusts for zero baseline offset as it passes through the monitor window Simultaneously apply pulses of exactly 7 00 volt peak amplitude to both pressure inputs These simulated pressure pulses should have a duration of approximately 1 millisecond The duration of the peak should be at least 20 microseconds If the peak pressure A does not read between 69900 and 70100 for each shot adjust the potentiometer R24 located on the circuit board adjacent to pressure inputs Ifthe peak pressure B does not read between 69900 and 70100 for each shot adjust t
82. u will want to salvage and correct the data for the actual conditions It can be done but you should leave clear tracks of the edit in the notes section The corrections entered will apply only to the one group A second application of this procedure is to examine different parameters recorded during the test You can change the channels displayed during replay and printed on the report The System 85 will measure and record the data from all transducers specified and connected but is limited in screen and paper width Not all measured channels can be displayed and printed on one report By modifying the test setup to change only the channels to be displayed you can observe data previously hidden Begin the correction process from the Setup pushbutton of the Main Display From the menu select Modify an existing test Load the desired test and make any desired modification After you return to the Main Display we urge you to Replay the test you just modified and make notes describing the nature of the correction The corrected group has now been saved Replay it for a quick look at the corrected data or use Printout for a corrected copy of the test The procedure makes accurate corrections for small errors in distances and conditions You cannot change the size or shape of the pressure curves You can also use the correction procedure as a tutorial Change the distance to the acoustic target by a few feet and observe the drama
83. ust fill them all in we guarantee that you won t have too much data years from now Test Name the test with a unique name Tests can be alpha numerically sorted on all lists so choose the first few characters carefully This will determine the test order and grouping on all displayed lists The box to the right of the test name is the group number of all those tests performed with this same template Operator The name of the gunner or operator is an optional bit of data Test Bay The number or name of the test bay is optional Muzli to Scr1 feet Enter the distance in feet from the muzzle of your gun to the first skyscreen the start screen This distance should be measured and maintained within 0 1 ft if you use the Acoustic Target to measure ballistic coefficients or if you are measuring pressure ScritoScr3 feet Enter the distance between the start and stop muzzle screens The standard distance is 20 feet MuzltoTrgt feet Enter data here only when the Acoustic Target is used This distance must be accurate to within a few tenths of a foot if the Ballistic Coefficient is to be valid If you guess this distance don t be Oehler Research System 85 Version 1 1 0 5 19 2011 Page 20 surprised at ridiculous ballistic coefficients and downrange velocity numbers We find it most convenient to record the distance measured from the front of the shooting bench to the permanent target mounting face and adjust this dis
84. ustic target that are to be used for the test Then pick the measurements you wish to make during the test The System 85 can make more measurements on each shot than there is room for displaying and printing the numeric values Select those channels of primary interest to you When the page is full you can t select more There are a few restrictions If you want only one pressure measurement you must use Pressure A or Transducer A If you select to make a pressure measurement the pressure curves will be displayed Pressure time to peak readings are referred to the fire signal If there is no fire signal then the times to peak are referred to the time that the Pressure A signal crosses the 0 95 volt threshold If you select Burst Rate of Fire then the equipment will revert to having only two velocity screens and you have no other options Proceed to the next screen with the Next button System 85 Main Display Setup Testing Template Muzi to Trgt f00 feet Target Size h0 0 inches Temperature 55 Max Avg Press 12315 Avg Velocity 1234 Xducer A a s Offset Press j pnt POPross 0 0000 POPSI Press Volt 10000 Pst yesi Press Volt 10000 PSI Test Time 16 05 Setup Testing Template You will now see a Main Display window but the parameter boxes are now open for editing Note that this is the only place in the program that you can enter or modify the test
85. w for 5 milliseconds and then restore it to high Application Programming Interface The control characters used in the System 85 are ASCII upper case alpha Communications are master slave protocol with the System 85 measurement unit as slave to the PC The command and response character set is defined in Table 1 below Character Software Command Firmware A All Measure Pressure Velocity and Targeting B Burst Rate of Fire Measure Burst Rate of Fire and Velocities C Quiescent Pressure Measure Quiescent Pressure Hardware Diagnostics D Dump Data Set Send Full Data Set from last operation E Echo Echo Last Command E Verify USB Communications F Build Test Data Set Worst Case File size Data 100000000 Data field G Measure at the Gun Measure Pressure and Velocity Only N Send Next Data Block Hand shaking within the Data Dump Routine P Pressure Measure Pressures Only R Respond Ready for Command T Targeting Measure Muzzle Velocity and Down Range Microphones V Velocity Measure Muzzle Velocity Only X Abort current Task Abort Task and Return to Ready Z a a d Hand shaking within the Data Dump Routine Table 1 Command control Character set Oehler Research System 85 Version 1 1 0 5 19 2011 Page E 2 After reset the System 85 enters the Ready state It sends an R and then continually polls the input for acommand The System 85 always returns to the Ready state after completing a command U
86. wo questions Your answers will be used to compute the minimum time after the first bullet clears the stop screen until the second bullet reaches the start screen We need at least three milliseconds At the testing screen you are instructed to fire the burst After the burst is fired signal the computer by clicking the window Your data will then be displayed in a window that can be scrolled System 85 Testing Display a Main Display 122 OmitfRestore Summary 1 aA Target es Gp se s 83 Muzzle 6 0 ft le 10 0 ft Test Name Burst Test Group 0 mn Shots 126 Tost Note Rnd EpochTime Velt3 Rate 4 1 0 000000 3315 OK 2 0 449417 3316 134 0 841525 3315 153 4 1 083828 3315 248 6 1518164 3316 262 7 1 685061 3315 360 8 1 885137 3315 300 9 2 084208 3316 301 10 2 277246 3316 31 11 2 464251 3315 321 12 2 643213 3315 335 z Testing Display Burst Fire The column headings are Rnd The number of the round fired If you fire more than 400 rounds the system will show only the first 400 rounds Epoch Time The elapsed time of each round from the beginning of the burst If this time exceeds 999 seconds it recycles Vel13 The velocity of each round measured between screen 1 and screen 3 Rate This rate in rounds per minute is calculated based on the time between each round You can compute the average rates for portions of the burst by using the differences in times and the
87. ze data from more than one test The multi report summary is most useful if a test of more than twenty rounds if required For such a test fire the test in twenty round groups and then print using the multi report summary The statistics from all included reports will be combined and the summary sheet will reference all included reports The Set Load Labels allows the entry of optional labels for two data fields in the load information The Set Report Title option allows you to put your own report title for instance company name can automatically appear as the major heading of each printed report v Color printer v Maximize preview Preview all printouts v Show group center Solid bullet holes y Use alternate Font Printout Options Under the printout options you can make several significant selections Checking the Color printer option allows jazzed up printouts from a color printer Unchecking the option assures that Pressure A is printed in black and Pressure B curve is printed in grey Checking the Maximize preview spreads the report preview over the entire screen Checking Preview all printouts makes you look at a screen before it wastes a sheet of paper on a printout it also slows you down when you know what you want to print or want to print multiple reports Checking Show group center will put an X at the group center Solid bullet holes normally look like a real target with round bullet holes to scale unchecking
Download Pdf Manuals
Related Search