X-Virus-Scanned: clean according to Sophos on Logan.com X-SpamCatcher-Score: 82 [XXX] (62%) BODY: contains text similar to "low payment" (38%) BODY: contains an image tag with CID Return-Path: Received: from smtprh02.spirittelecom.com ([165.166.0.78] verified) by logan.com (CommuniGate Pro SMTP 5.1.7) with ESMTPS id 1915126 for flyrotary@lancaironline.net; Sun, 11 Mar 2007 13:42:08 -0400 Received-SPF: pass receiver=logan.com; client-ip=165.166.0.78; envelope-from=jewen@comporium.net X-Report-Abuse-To: abuse@spirittelecom.com X-DKIM: Sendmail DKIM Filter v0.5.2 smtprh02.spirittelecom.com l2BHfH6m006458 DKIM-Signature: a=rsa-sha1; c=relaxed/simple; d=comporium.net; s=spiritmail; t=1173634880; bh=hzdMYrFU5yX74HYs+TrFQoZb5EA=; h=Message-ID:From:To: References:Subject:Date:MIME-Version:Content-Type:X-Priority: X-MSMail-Priority:X-Mailer:X-MIMEOLE:X-Virus-Scanned: X-Virus-Status; b=GrmgMMvpJLJnQ1aK6YS9hWb7l4AMtmrhx2ewpUW5e44glvQpR gWROBvOEB2HVt6vWVCpS7KCnf71OswysND6vA== Received: from Engineer1 (208-104-87-198.lnhe.2wcm.comporium.net [208.104.87.198] (may be forged)) by smtprh02.spirittelecom.com (8.13.6/8.13.1) with SMTP id l2BHfH6m006458 for ; Sun, 11 Mar 2007 17:41:19 GMT Message-ID: <00ba01c76404$7913dc60$6e05a8c0@cooleygroup.local> From: "Joe Ewen" To: "Rotary motors in aircraft" References: Subject: Re: [FlyRotary] A solution? was : The truth??? / Injector flow rate mystery solved Date: Sun, 11 Mar 2007 13:41:16 -0400 MIME-Version: 1.0 Content-Type: multipart/related; type="multipart/alternative"; boundary="----=_NextPart_000_00B6_01C763E2.F1A79940" X-Priority: 3 X-MSMail-Priority: Normal X-Mailer: Microsoft Outlook Express 6.00.2900.3028 X-MIMEOLE: Produced By Microsoft MimeOLE V6.00.2900.3028 X-Virus-Scanned: ClamAV 0.88/2807/Sun Mar 11 09:57:00 2007 on smtprh02.spirittelecom.com X-Virus-Status: Clean This is a multi-part message in MIME format. ------=_NextPart_000_00B6_01C763E2.F1A79940 Content-Type: multipart/alternative; boundary="----=_NextPart_001_00B7_01C763E2.F1A79940" ------=_NextPart_001_00B7_01C763E2.F1A79940 Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable MessageEd, I think you did understand what I was saying. I have attached a circuit = sketch to make certain my suggestion is correctly understood. There may = be couple of other factors to consider in selecting the pull down = resistor. Normally the current to energize the injector coil and make = the pintle move is greater than the current required to hold the pintle = in the open state, so if the pull down resistor value is too low the = current may not drop low enough to allow the pintle to close (like = gating an SCR.) Without putting calculations to it, my gut feeling = would be a higher resistance value say 1K?, it would give more margin = to the closing current (or lack of.)=20 On the safety side of things: * Does it add a failure point to the system? I don't think it would. if = the pull down looses its smoke, the circuit would still operate but = probably richer. * After a change like this, I would also do ground testing to see if = this has affected the minimum voltage requirement for operating the = system. (Min Bat voltage.) If you get this all sorted, I would appreciate feedback as well as your = formula for fuel flow based on the EC2 data. As you can see in the = following screen shot from my AC CPU, I don't have a formula yet for = calculation from EC2 Value to Engineering Units. Hope this helps, Joe ----- Original Message -----=20 From: Ed Anderson=20 To: Rotary motors in aircraft=20 Sent: Sunday, March 11, 2007 11:16 AM Subject: [FlyRotary] A solution? was : The truth??? / Injector flow = rate mystery solved Sounds like a reasonable approach to me Joe. A pull-down resistor = would be relatively easy for me to install - I have the resistor pack = required for the peak-hold type injectors. So I could easily place four = additional resistors in that box. If I understand you (please correct me if I don't), the pull down = resistor should go between the injector and the EC2 sinking terminals. = That way the current induced when the intended pulse terminates and the = magnetic field collapses will have a path to ground rather than being = opposed by the diode in the Ec2. The value of said resistor could be around 100 ohms. Since the = induced voltage could reach from 50 - 100+ volts an 100 ohm resistor = could flow from=20 0.5 - 1 Amp (for a very short duration). As far as affecting the 12 = Volt signal it would only draw 12/100 =3D 0.12 amp or 120 milliamps. = That would be pulled through the injectors at all times. The injector = resistance is probably (peak and hold case) around 3 ohms. So the = injector would draw 12/3 =3D 4 amps (DC case - its undoubtedly less due = to the A/C impedance of the coil). It make take some experimenting - = but 100 ohm looks like a good place to start. The wattage should probably be around 5 - 10 watts just to be on the = safe side. =20 So certainly looks like a suggestion that would work, Joe. =20 Ed ----- Original Message -----=20 From: Joe Ewen=20 To: Rotary motors in aircraft=20 Sent: Sunday, March 11, 2007 10:54 AM Subject: [FlyRotary] Re: The truth??? / Injector flow rate mystery = solved ED, George, Steve, A strong contributor to this may lie in the fundamental design of = the EC2. It's output control is sinking rather than sourcing. If it = were sourcing the positive EMF would be switched and the other side of = the could would always be grounded, leaving a place for the coil = breakdown current to go. Well the controller is what it is, so the = question become what can we do to work around the problem? Encoders are = used often in industrial applications, these are generally connected in = a sinking fashion just as the EC2. In high frequency (encoder pulses) = applications the impedance of the input electronics is often to slow to = bleed of the leading edge of the encoder on voltage before the next = pulse cycle. End result is that the input does not detect tithe state = change. The solution is very simple for the described situation is very = simple. Installing a pull down resistor between the sensor signal line = and ground. This technique is used with standard input electronics with = pulse trains up to 50kHz, which translates to a cycle period of 20=B5S. How does this translate to our application? If we were to add a = pull down resistor in injector signal line, which may very well be a = simple method to reducing the off delay time. This would of course add = a small increase in the current for the injector circuits, but that = increase would likely be minimal. The value of the resistor would = certainly need to be determined using factors such as Injector turn on = voltage, turn off voltage, device current, etc. IMO this may be a = simple solution to the delay issue. In the end I defer final recommendations to Tracy, who certainly = knows the characteristics of his controller system better than I. Joe ----- Original Message -----=20 From: Steven Boese=20 To: Rotary motors in aircraft=20 Sent: Saturday, March 10, 2007 11:44 PM Subject: [FlyRotary] Re: The truth??? / Injector flow rate mystery = solved Ed and George, =20 In my plane, at least, injector open times need to be less than 2 = ms at idle and just above the staging point. This is not possible with = a minimum open time of 2 ms due to the delay on closing. You can = program the EC2 for less than 2 ms but the hardware is unable to do = this. That means that the problem can't be fixed with software or = programming different values in the map table. A shorter close delay = time is required unless you lower the flow rate of the injectors by = changing the injector itself or lower the fuel pressure. The injector = open time is at least 2 ms or it doesn't open at all. =20 Steve Boese ------=_NextPart_001_00B7_01C763E2.F1A79940 Content-Type: text/html; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable Message
Ed,
I think you did understand what I was=20 saying.  I have attached a circuit sketch to make certain my=20 suggestion is correctly understood.  There may be couple of = other=20 factors to consider in selecting the pull down resistor.  Normally = the=20 current to energize the injector coil and make the pintle move is = greater than=20 the current required to hold the pintle in the open state, so if the = pull down=20 resistor value is too low the current may not drop low enough to allow = the=20 pintle to close (like gating an SCR.)  Without putting calculations = to it,=20 my gut feeling would be a higher resistance value say 1KΩ,  it would give = more margin to the=20 closing current (or lack of.)
 
On the safety side of = things:
* Does it add a failure point to the = system? =20 I don't think it would. if the pull down looses its smoke, the circuit = would=20 still operate but probably richer.
* After a change like this, I would = also do ground=20 testing to see if this has affected the minimum voltage requirement for=20 operating the system. (Min Bat voltage.)
 
If  you get this all sorted, I = would=20 appreciate feedback as well as your formula for fuel flow based on the = EC2=20 data.  As you can see in the following screen shot from my AC CPU, = I don't=20 have a formula yet for calculation from EC2 Value to Engineering=20 Units.
 

 
Hope this helps,
Joe
 
 
----- Original Message -----
From:=20 Ed=20 Anderson
Sent: Sunday, March 11, 2007 = 11:16=20 AM
Subject: [FlyRotary] A = solution? was :=20 The truth??? / Injector flow rate mystery solved

Sounds like a reasonable approach =  to me=20 Joe.   A pull-down resistor would be relatively easy  = for me=20 to install  - I have the resistor pack required for the = peak-hold=20 type injectors.  So I could easily place four=20 additional resistors in that box.
 
If I understand you (please correct me if I = don't), the=20 pull down resistor should go between the injector and the EC2 sinking=20 terminals.  That way the current induced when the intended pulse=20 terminates and the magnetic field collapses will have a path to ground = rather=20 than being opposed by the diode in the Ec2.
 
The value of said resistor could be around 100 = ohms.  Since the induced voltage could reach from 50 - 100+ volts = an 100=20 ohm resistor could flow from
0.5 - 1 Amp (for a very short duration).  = As far as=20 affecting the 12 Volt signal it would only draw 12/100 =3D 0.12 amp or = 120=20 milliamps.  That would be pulled through the injectors at all=20 times.  The injector resistance is probably (peak and hold = case)=20 around 3 ohms.  So the injector would draw 12/3 =3D 4 amps (DC = case - its=20 undoubtedly less due to the A/C impedance of the coil).  It make = take=20 some experimenting - but 100 ohm looks like a good place to=20 start.
 
The wattage should probably be around 5 - 10 = watts just=20 to be on the safe side. 
 
So certainly looks like a suggestion that = would work,=20 Joe. 
 
 
Ed
----- Original Message -----
From:=20 Joe Ewen=20
To: Rotary motors in = aircraft=20
Sent: Sunday, March 11, 2007 = 10:54=20 AM
Subject: [FlyRotary] Re: The = truth??? /=20 Injector flow rate mystery solved

ED, George, Steve,
A strong contributor to this may = lie in the=20 fundamental design of the EC2.  It's output control is sinking = rather=20 than sourcing.  If it were sourcing the positive EMF would be = switched=20 and the other  side of the could would always be grounded, = leaving a=20 place for the coil breakdown current to go.  Well the = controller is=20 what it is, so the question become what can we do to work around the = problem?  Encoders are used often in industrial = applications, =20 these are generally connected in a sinking fashion just as the = EC2.  In=20 high frequency (encoder pulses) applications the impedance of = the input=20 electronics is often to slow to bleed of the leading edge of the = encoder on=20 voltage before the next pulse cycle.  End result is that the = input does=20 not detect tithe state change.  The solution is very simple for = the=20 described situation is very simple.  Installing a pull down = resistor=20 between the sensor signal line and ground.  This technique is = used with=20 standard input electronics with pulse trains up to 50kHz, which = translates=20 to a cycle period of 20=B5S.
 
How does this translate to our=20 application?  If we were to add a pull down resistor in = injector signal=20 line, which may very well be a simple method to reducing the = off delay=20 time.  This would of course add a small increase in the current = for the=20 injector circuits, but that increase would likely be minimal.  = The=20 value of the resistor would certainly need to be determined using = factors=20 such as Injector turn on voltage, turn off voltage, device current,=20 etc.  IMO this may be a simple solution to the delay=20 issue.
 
In the end I defer final = recommendations to=20 Tracy, who certainly knows the characteristics of his controller = system=20 better than I.
 
Joe
 
 
 
----- Original Message -----
From:=20 Steven = Boese=20
To: Rotary motors in = aircraft=20
Sent: Saturday, March 10, = 2007 11:44=20 PM
Subject: [FlyRotary] Re: = The truth???=20 / Injector flow rate mystery solved

Ed and=20 George,

 

In my = plane, at=20 least, injector open times need to be less than 2 ms at idle and = just=20 above the staging point.  = This=20 is not possible with a minimum open time of 2 ms due to the delay = on=20 closing.  You can = program the=20 EC2 for less than 2 ms but the hardware is unable to do this.  That means that the = problem can=92t=20 be fixed with software or programming different values in the map=20 table.  A shorter = close delay=20 time is required unless you lower the flow rate of the injectors = by=20 changing the injector itself or lower the fuel pressure.  The injector open time = is at least=20 2 ms or it doesn=92t open at all.

 

Steve = Boese

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