1

Design Guide (abstract from AB-6536, AB-6656) DC221-03E

(For Remote unit input/output table)

1. Point type

ID

Analog input

Analog output Digital input Digital input/output Totalizer Para

meter Momentary Maintained Transfer0 1 2 3 4 5 6 7

1 AI Analog input

SOP Status

COPmS/S

(Momentary)

COPlS/S

(Maintained)

TTD Pulse TOT

PRDDigital

parameter2 AOP

Alarm CCPm

S/S+Status (Momentary)

CCPlS/S+Status (Maintained)

TTA Analog

TOT

PRAAnalog

parameter3 AO3

Analog output

M/M

SAP Status

+Alarm

CAPmS/S+Status

+Alarm (Momentary)

CAPlS/S+Status

+Alarm (Maintained)

4 AO4 Analog output

4 to 20mA

(SCP) Running

monitoring (Local command)

(OOAm)ON-OFF

-AUT (Momentary)

OOAtON-OFF

-AUT (Transfer)

5 AO5 Analog output (Voltage)

HOLmHI-OFF

-LO (Momentary)

HOLtHI-OFF

-LO (Transfer)

6 CCPfS/S+Status

(Momentary remote)

7 CAPfS/S+Status

+Alarm (Momentary remote)

8 HOLfHI-OFF

-LO (Momentary remote)

Note: 1. The point type ID number is a 2-digit number. Ex. AI: 01, CCPl: 42 2. The following point types are not available for Infilex GC/GD. Point type: SCP, OOAm

3. If the point has no input/output, such as analog parameter, set pseudo (1).

2

2. Digital Input/Output Point

COP: Command Only Point

SOP: Status Only Point 52X

AOP: Alarm Only Point 51X (ex. Trip alarm)

SAP: SOP + AOP

CCP: COP + SOP + command fail +COS alarm

CCPf (momentary remote): COP + SOP + command fail

CAP: COP + SOP + AOP +command fail + COS alarm

CAPf (momentary remote): COP + SOP + AOP +command fail

Note:

Refer to the document, DC221-01E page 36

COS alarm: Only status changes, although ON/OFF point where receives no command.

Command fail: Status does not change, after ON/OFF point where receives the start and stop

command.

Period monitoring time inhibit command fail (default 2 seconds)

XXXf (momentary remote): detect command fail, not detect COS alarm

Which is better CCP or CAP?

Merit of CAP: CAP can monitor the reason of stop (trouble or remote)

Other digital input/output

OOA: 3 position control (ON/OFF/AUTO) + SOP + command fail + COS alarm

HOL: 3 position control (Hi/Lo/OFF) + status (Hi) + status (Lo) +command fail + COS alarm

Example:

Light: full, half, off

Fan speed: high, low, off

3

3. Relationship with input/output list

Input/output list table Point type

Name O

utpu

t

Stat

us

Ala

rm

Ana

log

Tota

lizer

Para

met

er

M O CCPl C O CCPm or CCPf M O CAPl O C O CAPm or CAPf O A O OOAm or HOLm or HOLf O O SOP

O

O

SAP

O AOP O AI O TTD O AO6 M COPl (Usage: point interphone) (DIF-II only)

Symbol Description

M: Maintained/Latched output, 1a C: Momentary output, 1a+1a A: Maintained 3-position output, 1a+1a

4

4. Point parameter item list

Name displayed Item name SOP SAP SCP AOP COP m l t

CCP m l

CAP m l f

OOA m l t

HOL m l t CCPt

TYPE Point type

A/D A/D

IPD IPD

SEG Segregation

ABL Rated power ×

DLAYs On delay time × × × ×

TIMEs Timeout monitoring time ×

NRCV Batch restoration disabled × × × ×

DI1 I/O DI1 ×

DI2 I/O DI2 × × × × × ×

DO1 I/O DO1 × × × ×

REC OI Command/COS log (Not in use.) ×

LOG1 Boolean calculation 1 × × × ×

LOG2 Boolean calculation 2 × × × ×

VLV Switch valve × × × × × × × × ×

BCNT NC contact changeover × × × × × × × × ×

TIMs Alarm decision time × × × × × × × × ×

Name displayed Item name AI AO3 AO4/5 TTD TTA PRD PRA

TYPE Point type

A/D A/D

IPD IPD

SEG Segregation

DPOS Decimal position

COEF Coefficient × × × × × ×

SCL Prescale range × × × × × ×

RTIO Sampling ratio × × × × × ×

MAXS High limit × × ×

MINS Low limit × × ×

MAX Output high limit × × × × × ×

MIN Output low limit × × × × × ×

FLG Output × × × × × ×

AIS Linearization table No. × × × × × ×

ZERO Zero adjustment × × × × × ×

FBC Fully-close raw data × × × × × ×

5

Name displayed Item name AI AO3 AO4/5 TTD TTA PRD PRA FBO Fully-open raw data × × × × × ×

GAP Gap × × × × × ×

HYS Hysteresis × × × × × ×

CLMP Clamp delete/assign × × × × ×

AOCYs Minimum output interval × × × × ×

COV COV × ×

RNG Input type signal × × × × × ×

HYC Measuring cycle Normal/increased interval × × × × × ×

AI1 I/O × × × × × ×

AO1 I/O × × × × ×

TO1 I/O × × × × × ×

AIP Related AI point No. × × × × × ×

Note:

When the point is a central monitoring point, not write anything in the column of Central. And set SEG=

10000000.

When the point is not a central monitoring point, write [X] in the column of Central. And set SEG=

00000000.

5. Operation type (Digital Output point)

Point type Operation type Description COPm, CCPm, CAPm A Non-voltage normally open (ON) + normally open (OFF)

R Remote control relay output COPl, CCPl, CAPl A Non-voltage normally open (ON/OFF) (OOAm) HOLm, HOLf B Non-voltage normally open (ON) + normally open (OFF) OOAt, HOLt C Non-voltage SPDT CCPf, CAPf A Non-voltage normally open (ON) + normally open (OFF)

R Remote control relay output

6

6. Analog linearization table (AIS No.)

Linearization Table No.

1～6, 8～14, 18 7 15 16 17

Linearization Table

X Y X Y X Y X Y X Y

00 0.000 0 0.000 0 37.002 0 7.824 -500 25.431 -200 01 0.000 0 10.002 100 39.878 50 16.651 -350 31.226 -100 02 0.000 0 20.000 200 42.754 100 25.413 -200 37.002 0 03 0.000 0 30.002 300 45.627 150 34.106 -50 42.754 100 04 0.000 0 40.000 400 48.480 200 42.754 100 48.480 200 05 0.000 0 50.002 500 51.333 250 51.333 250 54.183 300 06 0.000 0 60.000 600 54.183 300 59.863 400 59.863 400 07 0.000 0 70.002 700 57.032 350 68.327 550 65.520 500 08 0.000 0 80.000 800 59.863 400 76.746 700 71.139 600 09 0.000 0 90.002 900 62.693 450 85.085 850 76.746 700 10 0.000 0 100.00 1000 65.520 500 93.389 1000 82.319 800

Application Reserve Linear Pt 100 Pt 100 Pt 100

Range - 0.0 ~ 100.0 0.0 ~ 50.0 -50.0 ~ 100.0 -20.0 ~ 80.0 Unit - % ºC ºC ºC

Linearization Table No.

19 20 21 22 23 24

Linearization Table

X Y X Y X Y X Y X Y X Y

00 0.000 0 37.002 0 20.561 -30 20.561 150 25.413 -200 0.000 0 01 10.002 10 42.754 100 79.439 30 79.439 300 23.312 -150 15.258 500 02 20.000 20 48.480 200 0.000 0 0.000 0 31.226 -100 0.000 0 03 30.002 30 54.183 300 0.000 0 0.000 0 34.106 -50 0.000 0 04 40.000 40 59.863 400 0.000 0 0.000 0 37.002 0 0.000 0 05 50.002 50 65.520 500 0.000 0 0.000 0 39.878 50 0.000 0 06 60.000 60 71.139 600 0.000 0 0.000 0 42.754 100 0.000 0 07 70.002 70 76.746 700 0.000 0 0.000 0 45.627 150 0.000 0 08 80.000 80 82.319 800 0.000 0 0.000 0 48.480 200 0.000 0 09 90.002 90 87.866 900 0.000 0 0.000 0 51.333 250 0.000 0 10 100.00 100 93.389 1000 0.000 0 0.000 0 54.183 300 0.000 0

Application Humidity (Linear) Pt 100 Relative Value

Neoplate Absolute Value

Neoplate Pt 100

Inside Neopanel, inside wireless Neopanel, Wireless sensors (Temperature)

Ranges 0 ~ 100 0.0 ~ 100.0 -3.0 ~ 3.0 15.0 ~ 30.0 -20.0 ~ 30.0 0.0 ~ 50.0 Unit % ºC ºC ºC ºC ºC

Note: Set the number of Linearization Table in the column of AIS No for each AI point.

7

Linearization Table No.

25 26 27~99

Linearization Table

X Y X Y X Y

00 0.000 0 0.000 0 0.000 0 01 3.052 100 7.782 255 0.000 0 02 0.000 0 0.000 0 0.000 0

03 0.000 0 0.000 0 0.000 0

04 0.000 0 0.000 0 0.000 0

05 0.000 0 0.000 0 0.000 0

06 0.000 0 0.000 0 0.000 0

07 0.000 0 0.000 0 0.000 0

08 0.000 0 0.000 0 0.000 0

09 0.000 0 0.000 0 0.000 0

10 0.000 0 0.000 0 0.000 0

Application Humidity (Linear) Buttery Shortage

Notice For JOB

Ranges 0 ~ 100 0.0 ~ 255.0 - Unit % - -

7. Signal type Point type Input symbol Description I/O Module model number

AI PT PT100ohms 0-50 ºC RY5004P0000 RY5004J0000 (AIx2, PTx2) PT100ohms 0-100 ºC

PT100ohms -20-80 ºC PT100ohms -20-30 ºC PT100ohms -50-100 ºC

AIA Current input 4-20 mA DC RY5004A0000 RY5004J0000 (AIx2, PTx2) AIV1 Voltage input 1-5 V DC

AIV2 Voltage input 0-5 V DC AIV4 Voltage input 0-10 V DC AIV5 Voltage input 2-10 V DC

AO3 MM Modutrol motor drive RY5001F0000 (For 1 pt) RY5003F0000 (For 3 pts)

AO4 AOA Current output 4-20 mA DC RY5002M0000 (For 2 pts) RY5004M0000 (For 4 pts) AO5 AOV1 Voltage output 1-5 V DC

AOV2 Voltage output 2-10 V DC AOV3 Voltage output 0-5 V DC AOV4 Voltage output 0-10 V DC

Note: Set the input symbol in the column of Signal Type for each AI/AO point.

8

8. RNG (Analog input signal type)

Parameter Analog input signal type 1 4~20 mA

2 0~5 V 3 1~5 V 4 0~10 V 5 2~10 V 11 0~50 (ºC) 12 0~100 (ºC) 13 -20~30 (ºC) 14 -20~80 (ºC) 16 -50~100 (ºC) 0 None

Note: Set the value of parameter in the column of RNG for each AI point.

9

9. I/O module list table

Model Selection Table Model number Description Object points and I/O points to be used Abbr. of

modules Connection to Infilex AC

RY50 Base model number ⎯

08 S 0000 I/O module for 8 digital input points

For SOP, AOP: DI 1 point For SAP, SCP: DI 2 points For CCP, OOA inputs: DI 1 point For CAP, HOL inputs: DI 2 points

DI No 16 S 0000 I/O module for 16 digital input

points

08 D 0000 I/O module for 8 relay output points (N.O. (normally open) contacts)

For COP maintained, CCP maintained, CAP maintained: DO 1 point*1 For COP momentary/local, CCP momentary/local, CAP momentary/local: DO 2 points

DO No

16 D 0000 I/O module for 16 relay output points (N.O. contacts)

16 R 0000 I/O module for 8 relay output points (N.O. contacts) + 8 digital input points

∗ Combination of modules (For relay output, see DO. For digital input, see DI.)

DO+DI Yes*5,*7

08 C 0000 I/O module for 8 relay output points (N.O./N.C. (normally open/normally close) contacts)

For OOA transfer/HOL transfer: NO/NC contact DO 2 points*2 When using HOL momentary/local => <See Note ∗4 >

DOC No

04 Y 0000 I/O module for 4 remote control relay output points

For limited to CCP local: RRD 1 point (DI is not necessary.) RRD No

04 T 0000 I/O module for 4 totalizer pulse input points

For limited to TTD: Pulse input 1 point TOT No 16 T 0000 I/O module for 16 totalizer pulse

input points

02 M 0000 I/O module for 2 voltage/current output points For limited to AO4 or AO5: AO 1 point

AO4 (4-20 mA) or AO5 (2-10 V/0-10 V/1-5 V/0-5 V) AO Yes*6,*7

04 M 0000 I/O module for 4 voltage/current output points No

04 A 0000 I/O module for 4 voltage/current input points

For limited to AI: AI 1 point (4-20 mA/2-10 V/0-10 V/1-5 V/0-5 V) AI No

04 P 0000 I/O module for 4 temperature input points

For limited to AI: Pt 1 point (0 to 100 °C/0 to 50 °C /-20 to 80 °C /-20 to 30 °C /-50 to 100 °C)

Pt No

04 J 0000 I/O module for 2 voltage /current input points + 2 temperature input points

∗ Combination of modules (For voltage/current input, see AI. For temperature input, see Pt.)

AI+Pt Yes*7

01 F 0000 I/O module for 1 Modutrol Motor output point

Output is limited to AO3. Input (measurement of actual opening) MM 1 point*3 is limited to AI.

MM No 03 F 0000 I/O module for 3 Modutrol Motor

output points

01 U 0000 User terminal (UT) module For Neopanel™, Neoplate, Operator Panel (panel mount type) UT Yes

01 Q 0000 Operator Panel (integral type) For Neopanel™ , Neoplate OP Yes

SOP: Status Only Point AOP: Alarm Only Point SAP: Status Alarm Point SCP: Status and COS (Change of Status) Point CCP: Command with COS Point OOA: ON/OFF/Auto Point

CAP: Command witn SAP HOL: HI (high)/OFF/LO (low) Command with COS Point TTD: Totalizer Digital Point

10

Notes: ∗1 Since the DO module does not have any N.C. (normally close) contact, the DOC module is used for the OOA or

HOL. ∗2 In the OOA transfer, ON/OFF is assigned to the first N.O./N.C. contact, and AUTO is assigned to the second

N.O./N.C. contact. In the HOL transfer, HI/OFF is assigned to the first N.O./N.C. contact, and LO is assigned to N.O. of the second N.O./N.C. contact.

∗3 Two points, AO3 and AI, are assigned to one MM point in the point file. The following shows the points correnponsing to IO numbers.

IO number Point type MM1: (1, 2) (AO3, AI) MM2: (3, 4) (AO3, AI) MM3: (5, 6) (AO3, AI)

∗4 For the HOL momentary/local, 3 points of N.O./N.C. contact DO of the DOC module are required. HI: N.O. contact of DO, OFF: NC contact of DO2, and LO: NO contact of DO3

∗5 For DO+DI module connected to Infilex AC (Model WY5117C1400), I/O points are limited to DI 4 points and DO 4 points.

∗6 For AO module connected to Infilex AC (Model WY5117C1400), voltage output (0-5 V, 0-10 V, 1-5 V, 2-10 V) is only available.

∗7 For DO+DI module, AO module, and AI+Pt module, connectabe Infilex AC is Model WY5117C1400 only.

11

Model No. RY5008S Model No. RY5016S Model No. RY5008D Model No. RY5016D Model No. RY5016R

Module ID = 1

DI 8

Module ID = 2

DI 16

Module ID = 3

DO 8

Module ID = 4

DO 16

Module ID = 5

DIO

I/O N

o.

Termial N

o.

I/O N

o.

Termial N

o.

I/O N

o.

Termial N

o.

I/O N

o.

Termial N

o.

I/O N

o.

Termial N

o.

1 DI 1 1 1 DI 1 1 1 DO 1 1 1 DO 1 1 1 DO 1 1

2 DI 2 2 2 DI 2 2 2 DO 2 2 2 DO 2 2 2 DO 2 2

3 DI 3 3 3 DI 3 3 3 DO 3 3 3 DO 3 3 3 DO 3 3

4 DI 4 4 4 DI 4 4 4 DO 4 4 4 DO 4 4 4 DO 4 4

5 DI 5 5 5 DI 5 5 5 DO 5 5 5 DO 5 5 5 DO 5 5

6 DI 6 6 6 DI 6 6 6 DO 6 6 6 DO 6 6 6 DO 6 6

7 DI 7 7 7 DI 7 7 7 DO 7 7 7 DO 7 7 7 DO 7 7

8 DI 8 8 8 DI 8 8 8 DO 8 8 8 DO 8 8 8 DO 8 8

COM 9 COM 9 COM 9 COM 9 DO COM 9

COM 10 COM 10 COM 10 COM 10 DO COM 10

9 DI 9 11 9 DO 9 11 9 DI 1 11

10 DI 10 12 10 DO 10 12 10 DI 2 12

11 DI 11 13 11 DO 11 13 11 DI 3 13

12 DI 12 14 12 DO 12 14 12 DI 4 14

13 DI 13 15 13 DO 13 15 13 DI 5 15

14 DI 14 16 14 DO 14 16 14 DI 6 16

15 DI 15 17 15 DO 15 17 15 DI 7 17

16 DI 16 18 16 DO 16 18 16 DI 8 18

COM 19 COM 19 DI COM 19

COM 20 COM 20 DI COM 20

12

Model No. RY5008C Model No. RY5004Y Model No. RY5004T Model No. RY5016T

Module ID = 6

DOC 8

Module ID = 7

RRD 4

Module ID = 8

TOT 4

Module ID = 9

TOT 16

I/O N

o.

Termial No.

I/O N

o.

Termial No.

I/O N

o.

Termial No.

I/O N

o.

Termial No.

1

DO 1a 1 1 RRD 1 (Red) 1 1 TOT 1 1 1 TOT 1 1

COM 1 2 2 RRD 1 (White) 2 2 TOT 2 2 2 TOT 2 2

DO 1b 3 3 (Virtual DI 1) 3 TOT 3 3 3 TOT 3 3

2

DO 2a 4 4 RRD 2 (Red) 3 4 TOT 4 4 4 TOT 4 4

COM 2 5 5 RRD 2 (White) 4 NC 5 5 TOT 5 5

DO 2b 6 6 (Virtual DI 2) NC 6 6 TOT 6 6

3

DO 3a 7 7 RRD 3 (Red) 5 NC 7 7 TOT 7 7

COM 3 8 8 RRD 3 (White) 6 NC 8 8 TOT 8 8

DO 3b 9 9 (Virtual DI 3) COM 9 COM 9

4

DO 4a 10 10 RRD 4 (Red) 7 COM 10 COM 10

COM 4 11 11 RRD (White) 8

DO 4b 12 12 (Virtual DI 4)

5

DO 5a 13 9 TOT 9 11

COM 5 14 10 TOT 10 12

DO 5b 15 11 TOT 11 13

6

DO 6a 16 12 TOT 12 14

COM 6 17 13 TOT 13 15

DO 6b 18 14 TOT 14 16

7

DO 7a 19 15 TOT 15 17

COM 7 20 16 TOT 16 18

DO 7b 21 COM 19

8

DO 8a 22 COM 20

COM 8 23

DO 8b 24

13

Model No. RY5002M Model No. RY5004M Model No. RY5004A Model No. RY5004P Model No. RY5004J

Module ID = 10

AO 2

Module ID = 11

AO 4

Module ID = 12

AI 4

Module ID = 13

Pt 4

Module ID = 14

AI/Pt

I/O N

o.

Termial No.

I/O N

o.

Termial No.

I/O N

o.

Termial No.

I/O N

o.

Termial No.

I/O N

o.

Termial No.

1

AOV 1 + 1

1

AOV 1 + 1

1

AIV 1 1

1

Pt 1A 1

1

AIV 1 1

AOV 1 - 2 AOV 1 - 2 AII 1 2 Pt 1B 2 AII 1 2

AOI 1 + 3 AOI 1 + 3 COM 1 3 Pt 1B 3 COM 1 3

AOI 1 - 4 AOI 1 - 4

2

AOV 2 + 5

2

AOV 2 + 5

2

AIV 2 4

2

Pt 2A 4

2

AIV 2 4

AOV 2 - 6 AOV 2 - 6 AII 2 5 Pt 2B 5 AII 2 5

AOI 2 + 7 AOI 2 + 7 COM 2 6 Pt 2B 6 COM 2 6

AOI 2 - 8 AOI 2 - 8

3

AOV3 + 9

3

AIV 3 7

3

Pt 3A 7

3

Pt 1A 7

AOV3 - 10 AII 3 8 Pt 3B 8 Pt 1B 8

AOI3 + 11 COM 3 9 Pt 3B 9 Pt 1B 9

AOI3 - 12

4

AOV4 + 13

4

AIV 4 10

4

Pt 4A 10

4

Pt 2A 10

AOV4 - 14 AII 4 11 Pt 4B 11 Pt 2B 11

AOI4 + 15 COM 4 12 Pt 4B 12 Pt 2B 12

AOI4 - 16

14

Model No. RY5001F Model No. RY5003F

Module ID = 15

MM1

Module ID = 16

MM3

I/O N

o.

Termial No.

I/O N

o.

Termial No.

1

MM1 Close 1

1

MM1 Close 1

MM1 Open 2 MM1 Open 2

MM1 COM 3 MM1 COM 3

MM1 COM 4 MM1 COM 4

MM1 POT G 5 MM1 POT G 5

MM1 POT Y 6 MM1 POT Y 6

MM1 POT T 7 MM1 POT T 7

2 (Virtual AI 1) 2 (Virtual AI 1) 8

3

MM2 Close 9

MM2 Open 10

MM2 COM 11

MM2 COM 12

MM2 POT G 13

MM2 POT Y 14

MM2 POT T 15

4 (Virtual AI 2) 16

5

MM3 Close 17

MM3 Open 18

MM3 COM 19

MM3 COM 20

MM3 POT G 21

MM3 POT Y 22

MM3 POT T 23

6 (Virtual AI 3) 24

15

Model No. RY5001U

Module ID=17 UT

I/O No. Terminal No.

Linearization table No. used

1 (Pseudo AI1)

Neopanel built-in sensor 24

2 (Pseudo AI2)

Input value of Neoplate POT 21/22

3 (Pseudo AI3)

Battery shortage notice 26

4 (Pseudo AI4)

Neosensor wireless transmitter address 1 temperature *1 24

5 (Pseudo AI5)

Neosensor wireless transmitter address 1 humidity 25

6 (Pseudo AI6)

Neosensor wireless transmitter address 2 temperature *2 24

7 (Pseudo AI7)

Neosensor wireless transmitter address 2 humidity 25

8 (Pseudo AI8)

Reserved

9 (Pseudo AI9)

Reserved

10 (Pseudo AI10)

Reserved

11 (Pseudo AI11)

Reserved

12 (Pseudo AI12)

Reserved

Linearization table No. used No.21: Neoplate fine-adjustment type (-3.0 to 3.0°C) No.22: Neoplate absolute value type (15.0 to 3.0°C) No.24: Neopanel built-in sensor/Neopanel wireless built-in sensor/ Neosensor wireless temperature (0.0 to 50.0°C) No.25: Neosensor wireless humidity (for 0 to 100%) No.26: For Neosensor wireless/Neopanel wireless battery shortage notice Point data for battery shortage notice information is as follows: 0: Both transmitters normal 1: Battery shortage notice included for

transmitter address 1 2: Battery shortage notice included for

transmitter address 2 3: Battery shortage notice included for both

transmitters *1 Neopanel wireless (transmitter address 1) built-in sensor is pseudo AI4. *2 Neopanel wireless (transmitter address 2) built-in sensor is pseudo AI6.

16

CAPl (maintained/latched)

CAPm (momentary)