Jun 21, 2014 PC Game Controller Calibration.i've been gaming a. (emulator) programmers do is implement the analog joystick 'dead zone' within the program itself.

• Quality Calibration Program
• Xbox One Controller Calibration

. DCP301 Digital Program Controller User’s Manual EN1I-6197 Issue 7 (02/04). WARRANTY The Honeywell device described herein has been manufactured and tested for corrent operation and is warranted for a period of one year. TECHNICAL ASSISTANCE If you encounter a problem with your unit, please review all the configuration data to verify that your selections are consistent with your application. SAFETY PRECAUTIONS About Icons Safety precautions are for ensuring safe and correct use of this product, and for preventing injury to the operator and other people or damage to property. You must observe these safety precautions.

The safety precautions described in this manual are indicated by various icons. WARNING Before connecting the DCP301 to the measurement target or external con- trol circuits, make sure that the FG terminal is properly grounded (100 max.). Failure to do so might cause electric shock or fire. Before wiring, or removing/mounting the DCP301, be sure to turn the power OFF. Batteries are small and are easy to swallow. If a child swallows a battery, consult a physician immediately.

Return used batteries to Honeywell sales/service office or your dealer. When disposing of used batteries at the user site, observe local by laws.

Unpacking Check the following when removing the DCP301 from its package. Check the model No. To make sure that you have received the product that you ordered. Check the DCP301 for any apparent physical damage. Check the contents of the package against the Package List to make sure that all accessories are included in the package. Organization of This User’s Manual This manual is organized as follows.

GENERAL This chapter describes DCP301 applications, features and basic function blocks. It also gives a list of model numbers. NAMES & FUNCTIONS OF PARTS This chapter describes the names and functions of DCP301 parts, input types and range Nos. Contents Safety Precautions Unpacking Request Organization of the Product Manual Conventions Used in This Manual Chapter 1. GENERAL 1-1 Features.1-1 1-2 Basic Function Blocks. 4-7 Connecting Inputs (analog inputs).

4-8 Connecting input 1. 4-8 4-8 Connecting control outputs (outputs 1, 2).

Display in program operation mode.6-3 Display in constant-value operation mode. 6-5 6-3 Program Selection.

8-2 Copying Programs.8-14 Operation. Items cannot be changed by pressing in program setup state.9-6 Event items cannot be changed by repeatedly pressing program setup state. Conventions Used in This Manual The following conventions are used in this manual. Handling Precautions Handling Precautions indicate items that the user should pay attention to when handling the DCP301. Note: Notes indicate useful information that the user might benefit by knowing. GENERAL Chapter 1. GENERAL Features The DCP301 is a general-purpose single-loop program controller for controlling temperature, pressure, flow rate and other inputs.

Quality Calibration Program

High accuracy achieved by multi-range input Multi-range input allows you to choose between the following input types: thermocouple, resistance temperature detector (RTD), dc voltage and dc current. GENERAL Basic Function Blocks Input Outputs Control Operation Block. Square root. Output change extraction. Thermocouple.

Current. Mode transition limitter. Lineariza-. Resistance. Relay. Upper/lower tion table temperature detector. Voltage.

GENERAL Data Structure Data is made up of “parameters” that are used mainly for setting controller functions and “programs” that are used for setting operation during program operation of the controller. Total of 19 program patterns Program No.=19 Number of segments=8 Program No.=3 Number of segments=15 (12) Program No.=2 Number of segments=19. GENERAL System Configuration System configuration by CPL communications On DCP301 models supporting RS-485 communications (optional), controllers can be connected as slave stations on a communications network. Personal computer (master station) RS-232C RS-232C/RS-485 converter RS-485 DCP301 (slave station). Chapter 1. GENERAL Model Numbers Model selection guide Basic Model Output Function Power Option Option Additions Description P301 Digital Program Controller (single- loop model) Relay outputs (on-off, or time- proportional) Position-proportional output Current output (controller/programmer selectable) (changeable to 6D output) Voltage output (current value adjustment function supported, on- off, or time-proportional).

Chapter 2. NAMES & FUNCTIONS OF PARTS Chapter 2. NAMES & FUNCTIONS OF PARTS Structure This controller comprises a body, console, case, standard terminal base and add-on terminal base. Console Contains 7-segment display, LEDs, Case operation keys and loader connector. Body Contains console and electrical circuits. NAMES & FUNCTIONS OF PARTS Console The console comprises keys for operating the controller, displays and LEDs.

Basic display state The “basic display state” is the state in which the controller operating state is displayed on the console. When the power is turned ON, the controller is in this state. NAMES & FUNCTIONS OF PARTS. Mode indicator LEDs RUN, HLD: Display the READY, RUN, HOLD, FAST and END modes.

(See follow- ing table.) Mode READY HOLD FAST Blinking Blinking: Lights in the MANUAL mode, and goes out in the AUTO mode.: Lights in the program setup state. NAMES & FUNCTIONS OF PARTS Keys PROG DISP: Program key: Display key FUNC: Function key: Left arrow key, right arrow key: Up arrow key, down arrow key Loader jack: Auto/Manual key RUN/HOLD: Run/Hold key: Auto-tuning key: Clear key. NAMES & FUNCTIONS OF PARTS Category Function Key operation Starts parameter setup. So the controller enters se- FUNC Parameter setup PARA lection of setup group (major item). (in basic display state) PARA To change the setup group (major item) To fix the setup group To moves between individual items (minor items) To start changing individual item setting values. NAMES & FUNCTIONS OF PARTS Category Function Key operation PROG Program copy To start program copy (in basic display state) To change the copy destination program No. To execute program copy (while setting value is blinking) DISP To end program copy DISP General reset FUNC.

NAMES & FUNCTIONS OF PARTS Functions using two or more keys: Reset keys PROG RUN/HOLD RUN/HOLD PROG Press with held down in the basic display state to reset the controller. The controller enters the READY mode in the RUN, HOLD, FAST or END modes. The controller cannot be reset in the READY mode by key operation.

NAMES & FUNCTIONS OF PARTS Input Type and Range No. Inputs Thermocouple Input Format Range No. Range ( C) Temp. Range ( F) K (CA) 0 to 1200 0 to 2400 K (CA) 0.0 to 800.0 0 to 1600 K (CA) 0.0 to 400.0.

NAMES & FUNCTIONS OF PARTS dc current, dc voltage Input Format Range No. Code Range (programmable) 4 to 20mA 0 to 20mA 0 to 10mA -10 to +10mV 0 to 100mV -1999 to 9999 0 to 1V -1 to +1V 1 to 5V 0 to 5V 0 to 10V. MOUNTING Chapter 3. MOUNTING External Dimensions Unit: mm (18) 159.5 Mounting bracket 81405411-001 Soft dust-proof cover set (sold separately) 81446087-001 Hard dust-proof cover set (sold separately) 81446083-001 Terminal cover set (sold separately) 81446084-001 Terminal screw 78.4 Back plate Add-on terminal base.

MOUNTING Panel Cutout Dimensions Use a steel panel of at least 2mm in thickness for mounting the controller. Unit: mm Panel cutout dimensions Panel cutout dimensions during multiple mounted (recommended) 92 +0.8 96 x (N - 1) 96 x N - 4 N=number of units installed Panel cutout dimensions when mounting units horizontally and vertically (recommended) 99 min.

MOUNTING Mounting WARNING Before wiring, or removing/mounting the DCP301, be sure to turn the power OFF. Failure to do so might cause electric shock. Do not disassemble the DCP301. Doing so might cause electric shock or faulty operation.

CAUTION Use the DCP301 within the operating ranges recommended in the specifi- cations (temperature, humidity, voltage, vibration, shock, mounting direc. MOUNTING Noise generating sources and countermeasures.

Generally, the following generate electrical noise: (1) Relays and contacts (2) Solenoid coils, solenoid valves (3) Power lines (in particular, 90Vac min.) (4) Induction loads (5) Inverters (6) Motor commutators (7) Phase angle control SCR (8) Wireless communications equipment (9) Welding equipment (10) High-voltage ignition equipment. MOUNTING Mounting method Panel Mounting bracket 81405411-001 Mounting bracket. Firmly secure the top and bottom of the controller by the mounting brackets. When mounting the controller, secure by lower mounting bracket (1) first. Mounting bracket Panel Panel Handling Precautions To secure the controller, tighten the screw on the mounting bracket (supplied).

Chapter 4. WIRING Chapter 4. WIRING Wiring Precautions WARNING Before connecting the DCP301 to the measurement target or external con- trol circuits, make sure that the FG terminal is properly grounded (100 max.). Failure to do so might cause electric shock or fire. Before wiring, or removing/mounting the DCP301, be sure to turn the power OFF. Handling Precautions. Before wiring the DCP301, check the controller catalog No.

And terminal Nos. On the label on the rear of the body. After wiring the DCP301, be sure to check the wiring for any mistakes. Maintain a distance of at least 50cm between I/O leads or communications leads and the power lead. WIRING Compensating Lead In the case of thermocouple input, connect the bare thermocouple lead to the terminal.

If the thermocouple is located a long way from the DCP301 or the thermocouple is connected to a terminal, extend the connection using a compen- sating lead and then connect to the terminal. WIRING Terminal Connections Use crimped terminals that fit onto M3.5 screws. Unit: mm 3.7dia. Handling Precautions. When installing the DCP301 in locations subject to vibration or impact, be sure to use round crimped terminals to prevent the lead from coming loose from the terminal.

WIRING Layout of Terminals and Recommended Lead Draw-out Direction Wiring is carried out on the standard terminal base or add-on terminal base. The following diagram shows the recom- mended draw-out directions for the leads on the standard terminal base. The lead draw-out directions are the same when using the add-on terminal base. WIRING Connecting the Ground and Power Supply Power supply Connect the DCP301 to a single-phase power supply for controllers, and take measures to prevent the influence of electrical noise. 200/200V, Recommended 100/100V line filter insulated transformer DCP301 Instrument 81446364-001 power supply Other circuits. WIRING Wiring of Standard and Add-on Terminal Base Standard terminal layout 5G output Instrument 6D output power supply External switch input (RSW) OD output 5K output 2G output 3D output Auxiliary output 90 to 264Vac RSW1 50/60Hz RSW2 FG (Frame GND) 4 to 20mA RSW3. WIRING Connecting Inputs (analog inputs) Connecting input 1 Multiple input 1 supports various sensor inputs.

Connect as follows according to the sensor being used. Thermocouple input. RTD input. dc voltage input. dc current input V, mV Handling Precautions. WIRING Connecting control outputs (outputs 1, 2) WARNING Before wiring, or removing/mounting the DCP301, be sure to turn the power OFF.

Failure to do so might cause electric shock. Relay output (0D) Connect as follows. Contact rating, resistive load Load 5A (30Vdc/120Vac) 4A (240Vac). Chapter 4.

WIRING Voltage output (6D) Connect as follows. 2 to 22mAdc With current adjustment function (setup: C 7 8 ) Handling Precautions Voltage output is reliant on an internal fixed-current circuit.

Set the current value in the setup data so that the optimum voltage is obtained matched to the conditions of the SSR in use and load. WIRING Connecting auxiliary outputs (outputs 2, 3) Optional auxiliary outputs can be added on. WARNING Before wiring, or removing/mounting the DCP301, be sure to turn the power OFF.

Failure to do so might cause electric shock. 0D, 5G, 6D auxiliary outputs Auxiliary output 1 Receiver (output 2). Chapter 4. WIRING 4-10 Connecting Event Output (relay output) Event outputs EV1 and EV2 are 1a contact, and event output EV3 is 1a1b.

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Event outputs are connected on the standard terminal base. Standard terminal base Contact rating, resistive load EV1 1a Load 1A (30/250Vdc) Power supply. WIRING 4-11 Connecting Time Event Output (open-collector) Optional time event outputs T1 to T5 (open-collector outputs) can be added on. Time event outputs are connected on the add-on terminal base. Add-on terminal base Load Maximum load current: 70mA/load OFF leakage current: 0.1mA max. WIRING 4-12 Connecting External Switch (RSW) Input The DCP301 is provided with four external switch inputs as standard (eight optional). The optional eight inputs are located on the add-on terminal base.

Wire the external switch inputs across the standard and add-on terminal bases. Standard terminal base RSW1 Contact. WIRING Internal circuit for controller components for connecting external switch inputs Standard terminal base Add-on terminal base 12Vdc 12Vdc 12Vdc 12Vdc External External switch switch input input Internal circuit Internal circuit 4-15. WIRING 4-13 Connecting for Communications Some controller models support the RS-485 communications interface.

Select the RS-485 communications models by selected the required catalog No. Connect as follows. Handling Precautions The DCP301 operates as a slave station. RS-485 interface Add-on terminal base Handling Precautions. WIRING 5-wire system RS-485 mutual connection Terminating resistor Slave station DCP301 Terminating resistor Shielded cable Master station Slave station DCP301 Shielded cable Handling Precautions Be sure to connect SG terminals each others.

Failure to do so might cause unstable communications. WIRING 3-wire system RS-485 mutual connection Terminating resistor Slave station DCP301 Master station Shielded cable Slave station DCP301 Shielded cable Handling Precautions Be sure to connect SG terminals each others. Failure to do so might cause unstable communications. Shielded cable Slave station DCP301 Terminating resistor. WIRING 4-14 Isolating Inputs and Outputs The following figures show isolation between inputs and outputs.

Solid lines show isolated items, and dotted lines show non-isolated items. Control outputs 0D, 5G, 6D, 3D, 5K Input 1 Output 1 (full multiple-input PV (relay, current, voltage output) supported) Output 2. FUNCTIONS Chapter 5. FUNCTIONS Data Data types The DCP301 supports the following data types. For further details, see Chapter 7, Parameter Setup and Chapter 8, Program Setup. Data that can be changed even in RUN mode Data Parameters Variable parameters Event configuration data Data (e.g. FUNCTIONS Program Patterns Patterns SP and time comprise the settings for a single segment in a pattern.

Up to 30 segments can be linked to create a broken-line whose vertical axis is SP and horizontal axis is time. This system is called the “RAMP-X”. FUNCTIONS Events 1 to 3 Events 1 to 3 are event configuration data. These are used after setting the event type, event standby, hysteresis and ON delay time. A total of three event types are available: PV type events, controller status events, and time events.

FUNCTIONS PV reverse Deviation direct Deviation reverse SP+EV SP+EV Absolute value deviation direct Absolute value deviation reverse SP direct SP reverse MV direct MV reverse MFB direct MFB reverse. FUNCTIONS Controller status events Controller status events are turned ON and OFF according to the controller mode, alarm status and other statuses. Though the event standby function does not function, the ON delay function does.

Event setting values (operating point), hysteresis and event standby are not set. FUNCTIONS Time events 1 to 5 Either of time events or segment No.

Events can be selected by the time event type item in the event configuration data setup. Time events The ON and OFF times or only the ON time can Segment be set for each event No. FUNCTIONS. If the ON time is set to 0 in the case of G.Soak Segment standby, output becomes ON from the G.Soak standby state, and the ON time is started at G.Soak standby Segment 8 time start ON time When 0N = 0, output turns completion of the G.Soak standby time. FUNCTIONS PID set selection. Eight sets of PID parameters, PID1 to PID8, are used for control operation. When the PID set No.

Is set to each seg- ment by designating the PID set segment, control output is calculated by each of the PID parameters. FUNCTIONS PV start SP pattern If PV start is set in the program setup, PV is started by regular RUN operation. The first point where PV matches the SP in the program Current Start point pattern (including bias for both PV and SP) is searched PV value for, and operation is started from that point. FUNCTIONS Pattern link Program No.2 pattern-linked to program No.1 “pattern link” is a function for linking patterns together. The link destination program No. Is set by the pattern link item.

Program No.1 When the pattern link item is set to 0 (initial setting), patterns are not linked. FUNCTIONS Modes Mode types The following modes are available on the DCP301. Mode Program operation READY AUTO MANUAL AUTO MANUAL HOLD AUTO MANUAL FAST AUTO MANUAL AUTO MANUAL Constant-value operation READY AUTO MANUAL AUTO MANUAL Program operation Operation is carried out according to SP, times, events, etc. Set to program patterns No.1 to 19.

FUNCTIONS In this mode, the program is running. MV outputs are active in PID control or ON-OFF control, and events and time events are active. In the program operation mode, program operation progresses according to the elapsed time. However, note that progress of program operation stops in the same way as the HOLD mode when the controller is in the G.Soak (Guarantee Soak) standby state. FUNCTIONS Mode transition During program operation The solid lines in the following diagram show mode transition operations. The broken lines show end of operation. RESET RESET HOLD END AUTO READY AUTO RUN AUTO HOLD AUTO RESET END MANUAL READY MANUAL RUN MANUAL HOLD MANUAL.

FUNCTIONS Mode transition operations The following describes mode transition operations. Though “program end” is not an operation, it is described below as it is a factor in mode transition. This operation involves shifting to the RUN mode from the READY, HOLD or FAST modes. FUNCTIONS Mode transition limitations Mode transition can be carried out operating the console keys, external switching input and communications. The following table shows which operations are enabled in each of the modes.

Operation HOLD RESET ADV. FAST (to RUN mode) (to HOLD mode) (to READY mode) (to FAST mode). Chapter 5. FUNCTIONS Controller and Programmer On 5G output models (output catalog No.

Appended with 5G), you can choose between use as a controller or a programmer. Set this in setup data C 1 8. You can also choose between controller or programmer functions even if the DCP301 is used for program operation or constant-value operation. FUNCTIONS Input Processing Functions Input processing is carried out in the order shown below. Analog input 1 Setting: Setup data C03 Input range type A/D conversion Wiring resistance compensation (resistance temperature detector) (thermocouple) Cold junction compensation Setting: Setup data C72 (DC current and voltage) Square-root extraction Setting: Setup data C07. FUNCTIONS Output Processing Functions Three outputs are provided as output processing functions: control output, SP output and auxiliary output. Control output When the DCP301 is selected for use as a controller, control output is operational.

How outputs are processed varies according to the output type supported on the model. 5G output Initialization of PID control Setting: Variable parameters 1 OUT/rpi d. FUNCTIONS 0D, 6D output Setting: Variable parameters 1 OUT/rpi d Initialization of PID control operation Setting: PID parameters p/ 1 / d/RE PID control operation PID parameters dP/di /dd PID parameters br Setting: Variable parameters OTL Output change limitter Setting: PID parameters OL/OH Output upper/lower limit limitter Setting: Variable parameter DI FF. FUNCTIONS 2G output Initialization of PID control operation Setting: Variable parameters 1 OUT/rpi d Setting: PID parameters p/ 1 / d/RE PID control operation PID parameters dP/di /dd PID parameters br Output change limitter Setting: Variable parameters OTL Setting: Variable parameter AT AT operation AT execution. FUNCTIONS 3D, 5K outputs Initialization of PID control operation Setting: Variable parameters 1 OUT/rpi d PID control operation Setting: PID parameters p/ 1 / d/RE Output change limitter Setting: Variable parameters OTL Setting: Setup data C 12/C 13 MV at over-range Over-range READY mode. FUNCTIONS SP output When the DCP301 is selected for use as a programmer, control output is operational.

On 5G output models, SP output is processed is as follows. Main output types Setting: Setup data C 18 Upper/lower limit scaling Setting: Setup data C 19/C20 Setting: Setup data C 16 MV in READY mode.

OPERATION Chapter 6. OPERATION Turning the Power ON The DCP301 is not equipped with a power switch or protective fuses. If necessary, prepare these externally.

When a voltage of 90 to 264Vac is applied across terminals (1) and (2) on the DCP301, display appears for about 10s after which control and other operations are started. OPERATION Switching the Basic Display The “basic display state” of the controller collectively refers to the display state of the program No. Display, segment No.

Display, upper display, lower display, basic indicator LED lamps and event LEDs. DISP Each press of successively switches the basic display state. OPERATION Display in program operation mode DISP functions Output Model No. Display 0D, 5G, 6D Display 1 Display 2 Display 5 Display 6 Display 7 Display 1 (repeated) Display 1 Display 2 Display 3 Display 5 Display 6 Display 7 Display 1 (repeated) 3D, 5K. OPERATION Display 4 Program No. Heat-side output (%) Pattern Cool-side output (%) tendency Output states of events 1 to 3, time events 1 to 5 This display is exclusive to heat/cool output models (output catalog No. Appended with 3D or 5K).

OPERATION Display 7 Program No. Pdf logos. Pattern Time tendency Output states of events 1 to 3, time events 1 to 5 The digit to which SP values can be entered blinks in the MANUAL mode when pro- grammer functions are selected.

OPERATION Display 3 Motor valve opening (%) Output state of events 1 to 3 This display is exclusive to 2G output models (output catalog No. Appended with 2G).

Display 4 Heat-side output (%) Cool-side output (%) Output state of events 1 to 3 This display is exclusive to heat/cool output models (output catalog No. OPERATION Program Selection The program No. Can be selected on the console within the range 1 to 19. How to select the program No. When the controller is in the basic display state in the program operation READY mode: Program No.1 PROG. OPERATION External Switch (RSW) Operations External switch (RSW) inputs In all, the DCP301 is provided with 12 external switch inputs.

Each of these inputs are differentiated by RSW1, RSW2 and so forth to RSW12. On models whose option 2 cata- log No. OPERATION Program selection The program can be selected in the program operation READY mode.

The table below shows program selection by external switch inputs. Two external switch states are pro- vided for selection of programs 10 to 15. When program selection by external switch inputs is set to “0”, the program can be selected by the console keys and by communica- tion with a personal computer. OPERATION Read timing Timing of RSW1 to 7 Inputs RSW1 to RSW7 are read according to the following timing.

(1) When input changes state from OFF to ON, the time from the change up to reading is 0.2s max. (2) When input changes state from ON to OFF, the time from the change up to reading is 0.2s max. OPERATION Manual Operation and Auto-tuning Manual operation In the MANUAL mode, controller outputs can be manipulated by on the con- sole. Controller functions When outputs are displayed in the basic display state, only one digit in the output value blinks. OPERATION. Auto-tuning in all instances involves calculating the downtime and critical sensitivity of the line according to two limit cycles and PID values according to suitable charac- teristic equations for each, and automatically writing these PID values.

PARAMETER SETUP Chapter 7. PARAMETER SETUP Parameter Setup Parameters can be set up when the DCP301 is in the basic display state. DISP If the DCP301 is not in the basic display state, press to set the controller to the basic display state.

Selecting the setting group in the parameter setup Parameter setup is divided into two stages: setting group (major item) and individual item (minor item). PARAMETER SETUP Moving individual items in the parameter setup With individual items, item codes are displayed in the upper display and setting values are displayed in the lower display. The program No. Display goes out, and the item No. Is displayed in the segment No.

PARAMETER SETUP. Example of individual item matrix (setup date) C 0 0 C 9 1 C 0 1 C 1 1 C 8 1 C 9 1 C 0 1 C 9 2 C 0 2 C 1 2 C 8 2 C 9 2 C 0 2. PARAMETER SETUP PARA How to Use PARA for calling up individual items in frequently changed parameters. How to register functions to keys PARA Up to eight individual items in the parameter setup can be assigned to each key. The assignment item must be registered to use this feature. PARAMETER SETUP Example PARA PARA Let’s register four individual items to.

If you press in the basic display state, the 1st to 4th individual items in the table below are displayed successively. In this ex- ample, let’s change the setting values. PARA Order Item to Call. PARAMETER SETUP DISP DISP Display item by Display item by PARA Basic Display PARA PARA key assign- key assign- State ment item 1 ment item 1 (blinking) (normally lit) PARA PARA Display item by Display item by DISP PARA PARA key assign. PARAMETER SETUP Parameter Setup List Note “U” and “%FS” used in the “Factory Setting” and “Setting” columns in the table mean the following: The decimal point changes according to the input range type setting. For example, when one digit past the decimal point is allowed, -1999U becomes 199.9, and 9999U becomes 999.9. PARAMETER SETUP Item Code Item Factory User Setting Setting Setting G 5.T G.Soak time (CH1) 0.1 to 60.0s C P.

1 1 -1999 to 9999U PID auto-switching Note point 1-1 C P. 1 2 C 1 1 200U PID auto-switching When setup data. PARAMETER SETUP Item Code Item Factory User Setting Setting Setting M.-C Motor control 0: MFB control (conventional) + estimated position control method selection 1: MFB control (conventional) only 2: Estimated position control only Note On models other than 2G output models, “– – – –” is displayed and setting is not possible. PARAMETER SETUP Description of variable parameter settings L O C (key lock) 0: Key lock disabled 1: Display of setup data settings disabled 2: Display of parameter settings and program settings disabled 3: Use of operation keys disabled 4: Display of parameter settings and program settings displayed, and use of operation keys disabled. PARAMETER SETUP O T L (MV change limit) The MV is increased or decreased by the same value so that the output change is taken as the limit setting value when the output change (%) after PID operation is greater than this limit setting. PARAMETER SETUP S t (smart-tuning method selection) 0: Smart-tuning is disabled.

1: The brake value is fixed to inhibit overshoot. 2: Overshoot is inhibited while automatically reviewing the brake value. When the control direction is set to reverse action, overshoot is inhibited. When set to direct action, undershoot is inhibited. PARAMETER SETUP D I F F. ON-OFF control differential When P is set to 0.0 on both 0D and 6D output models, control is set to ON-OFF control, and operational period at that time is set. Reverse action Direct action Differential Differential.

PARAMETER SETUP Note 1) On heat/cool models, this sets how the relationship between heat-side output and cool-side output should be processed with respect to the MV resulting from PID operation.

Select Configure to create and edit custom configurations for your controller. Your saved configurations stay with your profile and are available on any Xbox One or PC your controller is connected to.

Get started by browsing in Community configurations and adding ones you like to your own list of configurations. Or choose New configuration to make one from scratch. Below these options are the configurations that are currently assigned to the two slots in your controller.

The next section down lists all your saved configurations. Select one to perform these actions:. Save to a slot in your controller.

Edit. Copy. Rename. Delete. Edit is where you do your customization, including these options:. Button mapping. Left stick.

Right stick. Triggers. Vibration. Xbox button brightness Button mapping - Use the top drop-down menu to select which button you want to change and then, under Map to, select the corresponding button that you want to remap its functionality to. The image of the controller on the screen will update to show you which buttons are which. This screen also gives you these options:. Swap sticks.

Invert right stick Y axis. Invert left stick Y axis. Swap triggers Left and right stick sensitivity - Select Left stick or Right stick to customize and control how each stick responds during gameplay. Once you've chosen the stick you want to customize, you can select Default, Delay, Aggressive, Instant, or Smooth depending on how responsive you want the stick to be in your game. For example, if you want the controller to respond faster over a shorter stick movement, select Instant. You'll see a graph that shows you the response curve of the stick.

Note Depending on the game you play, these settings will have different responses. One way to test your settings is to set Slot 1 to Default and Slot 2 to your customized setting. Trigger sensitivity - Adjust the maximum and minimum ranges of your triggers.

You have two options for customizing them—with the hair-trigger mechanical switch on your controller or with the Trigger sensitivity section in the app. The hair-trigger mechanical switch works great for shooting games, because it reduces how much you need to pull on the triggers to fire. It may not work as well for driving games, since you need the accelerator to go the full distance for maximum acceleration. Adjusting the trigger sensitivity comes in handy here.

You can change the max and min thresholds for the triggers. For example, if you shorten the max distance, you'll get to maximum acceleration with less pulling of the trigger. Try setting your two slots differently and adjusting in real time to see the differences.

Vibration - Adjust the vibration sensitivity of your controllers. You can independently adjust four motors: Left trigger, Right trigger, Left main (in the handle), and Right main. The motors are at a default of 100% and can be adjusted down to 0%. When you adjust these slides, this changes the intensity of the vibration. Xbox button brightness – Decrease the brightness of the Xbox button if you prefer, down to 10% of standard brightness. This is especially useful if you like playing in the dark.

The slots correspond with the Profile Switch in the middle of your Xbox Elite Wireless Controller. You can have two different profiles saved to your controller at one time. For example, if Slot 1 is your shooter profile and Slot 2 is your racing profile, just flip the switch and you're ready to go. You won't need to adjust any other settings. You can also do this while you play a game.

Your configuration of the slots travels with your controllers. If you take your controller to a friend's house, the configuration will be saved on the controller and usable there. If you customize Slot 1 or Slot 2 on your controller on a different console, the new configuration will be saved to the controller and overwrite your old configuration.