Siemens SAMMS-MV user manual Output Devices, Input Devices

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3 Operating the SAMMS-MV Device

3.4 Output Devices

You can use the following SAMMS-MV output devices:

AC Outputs

The SAMMS-MVX device provides up to three AC coil drivers capable of driving contactors up to size H6, while SAMMS-MVE provides one coil driver.

Control Relays

The device provides up to eight software-controlled relays. These relays are helpful in local two-wire and other applications requiring maintained contacts.

Timing Relays

The SAMMS-MV device contains four internal software timing relays. You can configure all four timers as on-delay timers; however, if needed, you can configure the two adjustable timers (timing relays TR1 and TR2) as either on-delay or off-delay timers. Using the Hand Held Communicator, you can program timing relays TR1 and TR2 from 0 through 200 seconds (functions F13 and F14). Timing relay TR3 has a fixed 1 second delay, and timing relay TR4 has a fixed 30 seconds delay. Table

3.1illustrates the type of timers used on the device and their ranges.

Timer

Type

Time (in seconds)

 

 

 

TR1

Programmable on-delay or

0 - 200

 

off-delay

 

 

 

 

TR2

Programmable on-delay or

0 - 200

 

off-delay

 

 

 

 

TR3

Fixed on-delay

1

 

 

 

TR4

Fixed on-delay

30

Table 3.1 Types of software tming relays

Pilot LEDs

The SAMMS-MVX device contains three light bars on the front panel, while the SAMMS-MVE contains two light bars. Light bar L1 is reserved and must be used as the STOP or OFF LED. You can configure L2 and L3 at your discretion. The Hand, Off and Auto LEDs correspond to the Hand, Off and Auto pushbuttons on the front panel as illustrated in Figure 3.4. You can use the Incomplete Sequence LED in reduced-voltage applications or to verify contactor operation. Refer to Figure 3.4 for the location of the LEDs and Table 3.2 for a description of the LED states.

Flashing Pilot LEDs

The front panel contains two or three flashing light bars that indicate various conditions such as on-delay timing. These flashing light bars, L1, L2 and L3 as defined above, indicate different output devices if they are flashing rather than if they are on constantly. Refer to Figure 3.4 for an illustration of pilot LEDs.

3.5 Input Devices

You can use the following input devices with the SAMMS-MV device.

Remote AC Inputs

For SAMMS-MVX you can use four 120 VAC or VDC inputs for remote control, or you can use one input for SAMMS-MVE.

Front Panel Pushbuttons

The SAMMS-MV device has six front-panel pushbuttons for local control of the device. You must use pushbutton 1 (PB1) for stopping the motor. You must use three of the pushbuttons (PB4-PB6) for the Hand, Off and Auto functions if these functions are used in your configuration. If these functions are not used, you may use PB4-PB6 for other functions. You can configure the other two pushbuttons (PB2 and PB3) at your discretion. Refer to Figure 3.4 for assignment of pushbuttons. Insert labels are used to identify the function associated with each pushbutton or light bar.

Software Auxiliary Contacts

Any number of internal (software) auxiliary contacts can be configured. These contacts show either a normally open (NO) or normally closed (NC) status. You can set up these auxiliary contacts using the SAMMS-MV software. Through the SAMMS-MV software, the pilot LEDs also have auxiliary con- tacts.

 

STATE

 

 

 

LED

On

Flashing

 

 

 

Current

> 40%

20 - 40%

Unbalance

 

 

 

 

 

Impending Trip

> 110%

> 100% - <110%

 

 

 

Overload Trip

Trip

Start Inhibit

 

 

 

Incomplete

Trip

 

Sequence

 

 

 

 

 

External

Trip: Loss of Load

Alarm: Loss of

Trip/Alarm

or Jam or RTD

Load or Process

 

 

Current

 

 

 

CPU Fault

Trip: CPU Failure or

 

 

Low Voltage

 

 

 

 

Ground Fault

Trip

Alarm

 

 

 

Light bar (L1)

Stop or Off

Off Delay Timer

 

 

Timing

 

 

 

Light bar (L2)

Start, On, Forward,

On Delay Timer

 

Low Speed, Right

Timing

 

 

 

Light bar (L3)

Reverse, High

On Delay Timer

 

Speed, Left

Timing

Table 3.2 Description of pilot LEDs

Software Timer Inputs

Each timer has an unlimited number of normally open (NO) and normally closed (NC) contacts. Timers configured as on-delay timers have an unlimited supply of normally open timed-closed (NOTC), and normally closed timed-open (NCTO) contacts. Timers configured as off-delay timers have an unlimited supply of normally open timed-open (NOTO), and normally closed timed-closed (NCTC) contacts.

Communications Inputs

A serial, RS-485 communications port is located on the back of the device for external communications.

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Contents SAMMS-MV Qualified Person Contents Qualified Person Signal WordsField Service Operation About this Manual SAMMS-MV Device Models Advanced Protection for Medium-Voltage MotorsProgramming Control Circuits Using the Standardized Control PanelOverload Protection Outputs One Change settings requires password Yes Remote inputs OneSAMMS-MV Model Light barsInstalling the SAMMS-MV Device Full voltage non-reversing connection diagram Grounding the Device SAMMS-MV device communications connections Performing a Lamp Test Password ProtectionUsing the Reset/Test Push Button Performing an Overload Relay TestOutput Devices Input DevicesLadder Diagrams Library of Standard Ladder Diagrams Custom Ladder DiagramsSAMMS-MVX Standard control circuits PB1 PB2 PB3 PB4 PB5 PB6 Incomplete Sequence Ridethrough Upon Loss of Power SAMMS-MVX OnlyMotor Ambient Temperature Intelligent Reduced-Voltage Starting SAMMS-MVX OnlyODP motor thermal signature Protection Curves and Overload Classes Seconds Operating the SAMMS-MV 11 Motor protection graph Dual Overload Protection SAMMS-MVX Only Ultimate Trip Level and Service FactorPhase Unbalance Jam Protection SAMMS-MVX OnlyStart Inhibit Ground Fault DetectionRepetitive Starts Cooling Time Constants12 Multi-start scenario for an ODP motor Emergency Restarting Autoreset After a Trip SAMMS-MVX OnlyUsing the Hand Held Communicator HHC Function Key5A CT primary current if used Full load current for OLR No 5A CT primary current low speed if used Service factorFunction Number Motor type Overload trip class class 2 throughUP and Down Keys Using the Enter KeyUsing the SAMMS-MV Device Func- tions ON/OFF Means warning Select ground fault pick-up currentDefault Value Select jam pickup current 120-400% Iflc F24 Loss of Load13 Entering and changing passwords SAMMS-MV Functions Program Mode/PasswordsF0 Ambient Temperature F1 Control Circuit Number and Incomplete Se- quence StatusF4 Full-Load Current for Overload Relay #1 Overload Setting Step Default Relay Size RangeF3 Size for Overload Relay #2 SAMMS-MVX Only 18 to 72AF7 Overload Trip Class F6 Service FactorF6A Motor Type F7A Cold Stall TimeF10 Display Time to Restart F8 Autoreset SAMMS-MVX OnlyF9 Phase Unbalance Protection F11 Emergency RestartingSize Pickup Current Default H3A-H3C 7A-I FLC 10A 20A F12 Ground Fault Protection or WarningF12A Ground Fault Pickup Current F13 Set Programmable Timer #1F17 Current Unbalance F21 Reset Motor DataF16 Trip Current F18 Display Total Elapsed Run Time of the MotorF23 Jam Protection SAMMS-MVX Only F25 Percentage of Motor Winding TemperatureF22 Process Current Warning Level SAMMS-MVX Only F23A Jam Pickup Current SAMMS-MVX OnlyF26 Baud Rate F27 AddressTroubleshooting Error Condition Troubleshooting Guide Error Condition Appendix a Technical Specifications Over load Spec ificat ions Stat ist ica l Data Dimensions Catalog Number SAM6 Switch # Function Position 375 Siemens Energy Automation, Inc