Schneider Electric ATV61 PI feedback or summed reference Three different options, Becomes ATV

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1. Determining catalog numbers

PI feedback or summed reference: Three different options

ATV38	ATV 61
AI3 (0..10 V)	AI1 or AI2 if available
	AI4 on VW3 A3 202 option card
AI3 (+/- 10 V)	AI1

Tachometer: Totally incompatible. Alternative solution: use an incremental encoder.

Scenario 2: Replacing an ATV38 with or without a VW3A58202 option card:

Used:

ATV38

R1A/R1B/

R1C

R2A/R2C

AO 1

COM

AI 1

+10

AI 2

LI 1

LI 2

LI 3

LI 4

+24

Becomes:

ATV 61

R1A/R1B/

R1C

R2A/R2C

AO 1

COM

AI 1+

+10

AI 2

LI 1

LI 2

LI 3

LI 4

+24

LI 5

LI 6

Description

Fault relay (R1)

Programmable relay

(R2)

0-20 mA

analog output

Analog input common 0…10 V analog input

1 to 10 kΩ

potentiometer power

supply

0…10 V 0..4/20 mA

analog input

24 V DC run forward

logic inputs

24 V DC programmable logic input

24 V DC programmable logic input

24 V DC programmable logic input

Logic input power

supply

24 V DC programmable logic input

24 V DC programmable logic input

VW3A58202

COM

-10

+24

LI 5 also on control card

LI 6 also on control card

LO

LO +

AO

A

A-

B

B-

		VW3... card
A3 201		A3 202		A3 407
0 V		0 V

R3A/R3B/		R4A/R4B/
R3C		R4C
-10		-10

TH1+		TH2+
TH1-		TH2-
+24		+24

LI 7		LI 11

LI 8		LI 12

LI 9		LI 13

LI 10		LI 14

LO 1		LO 3

LO 2		LO 4

CLO		CLO

		Current
		AI3 +/AI3 -
		AI4

		AO 2

		AO 3

		FP

				A

				A-

				B

				B-

				0 V
				PES

Description

Common

Programmable relay

-10 V output

PTC probe PTC probe

Logic input power

supply

24 V DC

programmable logic

input

24V DC programmable logic input

24 V DC

programmable logic

input

24 V DC

programmable logic

input

Logic output

Logic output

Logic output power

supply

Programmable analog

input

Programmable analog

input

Programmable analog

output

Programmable analog

output

Pulse input

Incremental encoder

input

Incremental encoder

input

Incremental encoder

input

Incremental encoder

input

Encoder 0 V

Encoder 5 V

Examples:

-If only LI5 and LI6 are used on the VW3A58202 card

ªAn option card is not needed with the ATV 61 because Li5 and Li6 are features of the standard product.

-If only the incremental encoder inputs are used on the VW3A58202 card

ªUse the VW3 A3 407 encoder card.

11

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Contents Altivar Variable-torque applications Table of contents Migration from ATV 38V ATV Altivar 38 hardware identification Your catalog number starts with ATV38ED ATV38 catalog Power NumberChoosing the Altivar 61 catalog number Your catalog number starts with ATV38HSelecting the power circuit options Nema type 1 mounting kit Mounting accessories Removable power terminal kit VW3A5881x Air exchanger kit VW3A5880xRemote display terminal VW3A58103 Separate control card power supply kit VW3A5860xControl circuit options Control card fan kit VW3A5882xPTC Selecting I/O extension cards VW3A58201, VW3A58202ATV38 and I/O option cards VW3A58201, VW3A58202 ATV38VW3... card PI feedback or summed reference Three different optionsBecomes ATV VW3A58202Communication with DeviceNet bus VW3A58309 Selecting communication channelsCommunication via Modbus network Communication with Profibus bus VW3A58307Communication via Fipio bus VW3A58311 Communication with Metasys N2 bus VW3A58354UCommunication with Interbus bus VW3A58304E Communication via Ethernet network VW3A58310Using catalog numbers starting with ATV38H InstallationATV 61HU22N4 Comparison of dimensions Width Height DepthATV 61H075N4 ATV 61HU15N4ATV 61HD90N4 ATV 61HD45N4ATV 61HD55N4 ATV 61HD75N4ATV 61H Comparison of dimensionsDimensions ATV38Hppp product on heatsinkD45N4, D55N4, D75N4 D15N4, D18N4D22N4 D30N4, D37N4ATV61H ATV 38Hppp 75 kW and y 315 kW Product on heatsinkDrive Filter Width Height Depth Mounting Mounting the RFI filterWidth Height Depth Mounting DriveVW3 Comparison of dimensionsRFI filters Side mounting against the ATV Mounting under the driveKit catalog Product Nema mounting kitsKit catalog ATV38HpppppKit for UL Nema Type 1 conformity or IP 21 protection Remote display terminal Separate control card power supplyConnecting to the Altivar Power cablesDisconnecting the RFI filter if using an IT system Layout of the ATV38 power terminalsAWG Characteristics of the ATV38 power terminalsPA, PB Maximum terminal wire size/tightening torqueDrive terminals L1/R, L2/S, L3/T, U/T1, V/T2, W/T3 PC/-, PO, PA/+PA, PB RO, SO, to ATV61H D90M3X, C13N4ATV61HC16N4 ATV61HC22N4 ATV61H C25N4, C31N4 ATV38 value kOhms Control wiring and I/O characteristicsControl and option card logic input wiring LI6 wired as PTC probe Encoder Check that the drive is turned off Installing the communication option cardGeneral AcceptanceValue Description of parameter values Option card faultCalculating the polarization resistors Mixed schematicSchematic diagram Communication via Modbus networkReminder of the various connection methods Configuring the driveConfiguring the address Configuring the drive control modePLC configuration and application Configuring communication monitoringReminder of possible connection methods Address ATV38 switches ATV61 switches 12345678Matching the line termination resistor Configuring polarity on the drive RS 485 busPLC configuration and application Communication via CANopen networkAddress and Baud rate Configuring the drive1234 Configuring the drive address on the Profibus DP networkCommunication via Profibus DP network AddressCommunication fault Configuring the drive in ATV38 Interchangeability modePresentation Connecting to the Fipio busConfiguring the drive address on the Fipio network Communication via Fipio network VW3 A3 311 option cardBase module Altivar 38 PKW indexed periodic variablesManaging loss of Fipio communication FamilyCommunication via Interbus network Configuring the communication parametersATV38 ATV61 Configuring the drive address on the Modbus Plus networkCommunication via Modbus Plus network Communication fault MAC Configuring the drive on the networkConfiguring the drive address on the DeviceNet network Communication via DeviceNet networkPLC configuration and application Drive implementation on the DeviceNet network Implementation of the communication option cards Implementation of the communication option cards Implementation of the communication option cards Implementation of the communication option cards P06 P06 Communication fault Transmission speed Drive configuration in Expert modeUsing the Bootp protocol Communication via Ethernet networkProcedure on the Altivar Using the DHCP-FDR protocolFaulty Device Replacement FDR Activating the serviceXxxx Modbus serviceProgramming the Altivar 38 Ethernet parameters Available address fieldsModbus functions available IO Scanning serviceEthernet card access to the Modbus server Configuring the periodic parameter assignment tableFDR service fault EPF2 Configuring the IO Scanner page from the Http server Implementation of the communication option cards Description ATV61 register Configuring the IO Scanner page using TCP/Modbus messagingAltivar 38 PKW parameter-setting service Snmp agentStandard Http server PDA Altivar page Last Fault = ILF FaultCommunication fault FDR service fault EPF2AS-i Assignment of inputs/outputs 11 . +/- speed modeAssignment of the Inputs/Outputs Speed mode, 1 direction of operationLimitations Configuring the drive logic I/OSpeed mode, 2 directions of operation Managing the terminal outputs AS-i monitoring bitsMulti-parameter card Application-specific option cardsPump card Multi-motor cardAtv61migrationenv1 2006-04