PowerTec DFS-1 manual Analog Output #2 LOW Engineering Units EGU, Default Value 0000 0096h

Page 33

29.ANALOG OUTPUT #2 LOW ENGINEERING UNITS (EGU)

USE PARAMETER #29 TO SELECT THE THRESHOLD OF ANALOG OUTPUT #2 EFFECT. RANGE OF VALUES: FFFE 7961h to 0001 869Fh

-99,999 to +99,998 (dec.)

Default Value: 0000 0000h

0 (decimal)

(See Parameter 14 for the definition

and purpose of EGU)

Parameter #29 sets the point, in EGU’s, at which the Analog Output #2 will be -10VDC.

30.ANALOG OUTPUT #2 HIGH ENGINEERING UNITS (EGU)

USE PARAMETER #30 TO SELECT THE MAXI- MUM ANALOG OUTPUT #2 EFFECT.

RANGE OF VALUES: FFFE 7961h to 0001 869Fh -99,999 to +99,998 (dec.)

Default Value: 0000 0096h

150 (decimal)

If parameter #30 is greater on the absolute scale than parameter #29, the voltage at Analog Output #2 will be proportionally scaled from the low EGU’s (#29) to +10VDC at the high engineering units

(#30).

If parameter #30 is less than parameter #29 on the absolute scale, then the sense of the output will be inverted, i.e., the higher voltage (on an absolute scale from -10VDC to +10VDC) will be present at the low EGU setting (parameter #29) and the lower voltage will be output at the high EGU setting (parameter #30).

Low EGU

High EGU

Speed

Vout

 

 

 

 

 

0

+1750

 

0

-10

 

 

 

 

 

0

+1750

1750

(FWD)

+10 VDC

 

 

 

 

0

+1750

1750 (REV)

0 VDC

 

 

 

 

 

-1750

+1750

 

0

0 VDC

 

 

 

 

 

-1750

+1750

1750

(FWD)

+10 VDC

 

 

 

 

-1750

+1750

1750 (REV)

-10 VDC

 

 

 

 

 

-100

+400

 

0

-6 VDC

 

 

 

 

 

+400

-100

 

0

+6 VDC

 

 

 

 

 

+1750

0

875

(FWD)

+5 VDC

 

 

 

 

 

Table of Values for Analog Outputs

Page 28

DFS-1 Manual

Revised 7/95

 

 

POWERTEC Ind. Corp.©

Image 33
Contents Microprocessor Based Brushless D.C Motor Controller DFS-1Subsidiary Powertec Industrial Corporation Errata October Additional InfoMounting -- Read this Entire Section Before Starting InstallationContents DFS 1 Setup Communication Protocol Retrofitting the Model 1000,1000A, or 1000ARMenu and Keypad Hierarchy Revised 7/95 Introduction Summary of Warranty and Disclaimer Connections Power ConnectionsAnalog Inputs Motor Encoder CableAnalog Outputs FrequencyinputFrequencyoutputdigital Inputs Digital Outputs CommunicationsDigital Out #4 Reverse This page WAS Intentionally Left Blank Default Setup Revised 7/95 Input Setup Function Power SuppliesThis Supply is for the Motor Encoder only VDCDigital Inputs Frequency Inputs OutputsInput #1 Reference Frequency Input Outputs #1 Reference Frequency Output19.2K, and 38.4K baud Standard RS-485Cable Nodes MaximumThis page WAS Intentionally Left Blank Unit ID Local / Remote ControlBaud Rate Number Baud RateCommunications Protocol Modes of OperationTo 1 decimal Maximum Motor Speed Encoder Pulses PER RevolutionUSE Parameter #6 to SET the Absolute Maximum Motor Speed Master Ramp Down Time Master Ramp UP TimeSlave Ramp UP Time Slave Ramp Down TimeSlave Ratio Preset Master Preset SpeedTo 99,999 decimal Default Value 0000 06D6h Engineering UnitsAnalog Input #1 Mode Select To 32 decimal Default Value 0000 0001hMaximum Ratio Analog Input #1 LOW Engineering Units EGU Analog Input #1 Signal ConditioningCenter value Future useAnalog Input #2 Signal Conditioning Analog Input #2 Mode SelectAnalog Input #1 High Engineering Units EGU Analog Input #2 LOW Engineering Units EGUAnalog Output #2 Mode Select Analog Output #1 Mode SelectAnalog Output #1 LOW Engineering Units EGU Analog Output #1 High Engineering Units EGUDefault Value 0000 0096h Analog Output #2 LOW Engineering Units EGUAnalog Output #2 High Engineering Units EGU Digital Input #2 Function Digital Input #1 FunctionDigital Input #3 Function Digital Input #4 FunctionDigital Input #6 Function Digital Input #5 FunctionDigital Input #7 Function Digital Output #1 FunctionDrive Stability Setting Drive Gain SettingDigital Output #2 Function Digital Output #3 FunctionPulse Multiplier Drive Regenerative Current LimitModulation and Operation Modes Jump or MOP OperationMaster Jump Down Amount Master Jump UP AmountSlave Jump UP Amount Slave Jump Down AmountInput Debounce Value Communications Turnaround DelayMinimum Ratio Float or FreezeMaster Preset #2 Slave JOG Ratio Slave Preset #2Contactordelay EGU TAG SelectThis page WAS Intentionally Left Blank DFS 1 Setup Basic Setup of the DFS-1 Controller Master Mode Setup Slave Mode Setup Inputs and Outputs Setup This parameter selects the Powertec binary protocol Communications SetupSET Parameter #56 for Communications Turn around Delay SET Parameter #3 to Select Which Functions are RemoteError Codes for ON-BOARD Display This page WAS Intentionally Left Blank Communications Protocol Command List Parameter List DLESTXUIDCMDCS4CS3 CS2CS1DLEETXCSM DlestxuidcmddleetxcsmDlestxuidnakerrdleetxcsm ERRResponse If no errors Response If no errors and unit i.d. does not equalDlestxuidackdleetxcsm DlestxuidcmdprmdleetxcsmDlestxuidcmdatddleetxcsm DLESTXUIDCMDPRMVL4Dlestxuidcmddtadleetxcsm DLESTXUIDACKDA4DA3Dlestxuidcmddigdleetxcsm DLESTXUIDCMDDTAVL4DLESTXUIDCMDDIGVL4 Where Is unused Is Jog Is Preset Is Contactor AuxBIT PSN SML BIT PSN SMHSmhsmldleetxcsm Message DLESTXUIDCMD0000BIT PSN RML BIT PSN RMHDLESTXUIDCMDAMDVL4 Attachmentb Parameter DescriptionAdditional Info Output Contactor Typical Dynamic Braking Typical This page WAS Intentionally Left Blank DFS-1 Model 1000 series retro-fit kit consists Quantity Quantity Pin Connector CableRevised 7/95 Appendix B Not visible in some modes Revised 7/95 Powertec Ind. Corp Figures 2 DFS-1 Manual Figures DFS-1 Manual Igur DFS-1 Manual Select AI ModeEnterEnter DFS-1 Manual Igur DFS-1 Manual Sel DFS-1 Manual Igures DFS-1 Manual Figures 29 DFS-1 Manual