Number | Function | Scheme | Description | |
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A-SIMPLE TIMER | F00 | CONNECTION DELAY | Once the system is supplied with a voltage U, after a time t, the relays R1 and R2 will be activated simultaneously. ( the relay R2 is only available for models MTIR2 and MTIR2 MODBUS ) |
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F01 | DISCONNECTION DELAY | Once the system is supplied with a voltage U, after a time t, the relays R1 and R2 will be deactivated simultaneously. ( the relay R2 is only available for models MTIR2 and MTIR2 MODBUS ) |
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B - TEMPORIZED WITH SIGNAL B1 | F02 | CONNECTION DELAY BY FLANK | Once the system is supplied with a voltage U, when an up flank of the signal B1 is produced, the relays R1 and R2 will be activated simultaneously after a time t. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. (the relay R2 is only available for models MTIR2 and MTIR2 MODBUS ). |
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F03 | ACTIVATION WITH U AND DISCONNECTION DELAY BY FLANK EDGE OF SIGNAL B1 | Once the system is supplied with a voltage U, the relays R1 and R2 will be activated. When an up flank of the signal B1 is produced, the relays R1 and R2 will be deactivated simultaneously after the programmed time t. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. (the relay R2 is only available for models MTIR2 and MTIR2 MODBUS ). |
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F04 | DISCONNECTION DELAY BY DOWN FLANK , WITH RELAY CONNECTION BY UP FLANK OF SIGNAL B1 | Once the system is supplied with a voltage U, When an up flank of the signal B1 is produced,the relays R1 and R2 will be activated simultaneously. With the flank down of the same pulse, a time t starts and at the end of that time the relays R1 and R2 will be deactivated simultaneously. If before the end of time t there is a new pulse of the signal B1, a new time t will begin with the down flank of the second B1 and at the end of this time t the relays R1 and R2 will be deactivated simultaneously and so forth. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. (the relay R2 is only available for models MTIR2 and MTIR2 MODBUS). |
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F05 | DISCONNECTION DELAY BY UP FLANK OF SIGNAL B1 | Once the system is supplied with a voltage U, When an up flank of the signal B1 is produced, the relays R1 and R2 will be activated simultaneously for a time t. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. (the relay R2 is only available for models MTIR2 and MTIR2 MODBUS). |
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F06 | DISCONNECTION DELAY BY FLANK DOWN OF SIGNAL B1 | Once the system is supplied with a voltage U, When a down flank of the signal B1 is produced, the relays R1 and R2 will be activated simultaneously for a time t. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. (the relay R2 is only available for models MTIR2 and MTIR2 MODBUS). |
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F07 | DISCONNECTION DELAY BY UP OR DOWN FLANK OF SIGNAL B1 | Once the system is supplied with a voltage U, When a up flank of the signal B1 is produced, the relays R1 and R2 will be activated simultaneously for a time t. If before the end of time t there is a down flank of the signal B1, the relays R1 and R2 will remain active again a time t from the down flank of the signal B1. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. |
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F08 | DISCONECTION DELAY INTERRUPTIBLE BY UP FLANK OF SIGNAL B1 | Once the system is supplied with a voltage U, and after the programmed time t, the system will start to count the time of duration t1 when the firt pulse of B1 is finished. It will count for a time “a”, it will be interrupted by a second pulse of B1 of duration t2 and at the end of the second pulse the system will start to count for a time “b”, once the time “b” is finished the relays R1 and R2 will be activated simultaneously and remain active while power is supplied. So the total delay will be the sum of t + t1 + t2 etc., also t will be the sum of a+b+c...+n interruptions. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. |
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F09 | CONNECTION DELAY INTERRUPTIBLE BY DOWN FLANK OF SIGNAL B1 | Once the system is supplied with a voltage U, and after a programmed time delay t, this shall begin with the start of the first pulse duration B1 "a", will be interrupted by the down flank of the first pulse B1, it will be stopped a time t1 to start again with the second pulse duration B1 "b", will be interrupted by the down flank of the second pulse B1 and it will be stopped a time t2 to start again with the third pulse duration B1 "c", and elapsed a time t3 relays R1 and R2 will be activated until supply termination. The total retarded time will be the sum of t+t1+t2+t3 etc., also t will be the sum of a+b+c...+n pulse times. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. |
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D - TEMPORIZED SYMMETRIC / ASYMMETRIC | F10 | PULSE DELAY | Once the system is supplied with a voltage U, after a programmed time delay t1, the relays R1 and R2 will be activated simultaneously for a time t2. |
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F11 | PULSE DELAY WITH SIGNAL B1 | Once the system is supplied with a voltage U, after an up flank of the signal B1, It starts a delay time t1 after which the relays R1 and R2 will be activated simultaneously for a time t2. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. |
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F12 | SYMMETRIC TIMING CYCLE (INITIALLY ACTIVATED) | Once the system is supplied with a voltage U, a symmetric timing cycle starts with time value “t” for the activation and time t for the deactivation until supply termination. The relays R1 and R2 are initially activated. |
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F13 | SYMMETRIC TIMING CYCLE (INITIALLY DEACTIVATED) | Once the system is supplied with a voltage U, a symmetric timing cycle starts with time value “t” for the activation and time t for the deactivation until supply termination. The relays R1 and R2 are initially deactivated. |
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F14 | ASYMMETRIC TIMING CYCLE (INITIALLY ACTIVATED) | Once the system is supplied with a voltage U, an asymmetric timing cycle starts with time value “t1” for the activation and time “t2” for the deactivation until supply termination. The relays R1 and R2 are initialy activated. |
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F15 | ASYMMETRIC TIMING CYCLE (INITIALLY DEACTIVATED) | Once the system is supplied with a voltage U, an asymmetric timing cycle starts with time value “t1” for the activation and time “t2” for the deactivation until supply termination. The relays R1 and R2 are initially deactivated. | ||
E - SIMPLE COUNTING | F16 | COUNTER TO CONNECTION BY "N" UP FLANKS OF SIGNAL B1 | Once the system is supplied with a voltage U, when the system receives n pulses of the signal B1 the relays R1 and R2 will be activated in the up flank of the n pulse of the signal B1 and will remain activated until supply termination. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | |
F17 | COUNTER TO DISCONNECTION BY "N" UP FLANKS OF B1 | Once the system is supplied with a voltage U, when the system receives n pulses of the signal B1 the relays R1 and R2 will be deactivated in the up flank of the n pulse of the signal B1. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | ||
G - SYMMETRIC / ASYMMETRIC COUNTING | F18 | SYMMETRIC COUNTER CYCLE BY "N" UP FLANKS BY B1(INITIALY ACTIVATED) | Once the system is supplied with a voltage U, the relays R1 and R2 will remain active until the arrival of “n” pulses of signal B1. When the up flank of the pulse n of the signal B1 arrives, the relay R1 and R2 will be disconnected. The relays will remain on that state until the arrival of new n pulses of signal B1, activating the relays with the up flank of the pulse n of the signal B1 arrives. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | |
F19 | SYMMETRIC COUNTER CYCLE BY "N" UP FLANKS BY SIGNAL B1(INITIALY DEACTIVATED) | Once the system is supplied with a voltage U, the relays R1 and R2 will remain inactive until the arrival of “n” pulses of signal B1. When the up flank of the pulse n of the signal B1 arrives, the relays R1 and R2 will be activated. The relays will remain on that state until the arrival of new n pulses of signal B1, deactivating the relays with the up flank of the pulse of the signal B1 arrives. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | ||
F20 | ASYMMETRIC COUNTER CYCLE BY "N1" AND “N2” UP FLANKS OF SIGNAL B1(INITIALY ACTIVATED) | Once the system is supplied with a voltage U, the relays R1 and R2 will remain active until the arrival of n1 pulses of signal B1. When the up flank of the pulse n1 of the signal B1 arrives, the relays R1 and R2 will be deactivated. The relays will remain on that state until the arrival of new n2 pulses of signal B1, activating the relays with the up flank of the pulse n2 of the signal B1 arrives. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | ||
B - TEMPORIZED WITH SIGNAL B1 | F21 | UP FLANK DELAY NEST-ABLE BY SIGNAL B1 | UP FLANK DELAY NEST-ABLE BY SIGNAL B1 | |
D - TEMPORIZED SYMMETRIC / ASYMMETRIC | F22 | LOCKING AND CUTTING CYCLE WITH SIGNAL B1 | Once the system is supplied with a voltage U, when an up flank of the signal B1 a connection delay with time t is initiated for the relays R1 and R2, after de up flank of the signal B1, a disconnection delay with time t is initiated for the relays R1 and R2. In the modules that have input B2, as MTIR2, the state of this signal B2 is irrelevant in this function. | |
A - SIMPLE TIMER | F23 | CONNECTION DELAY BETWEEN RELAYS R1 AND R2 | Once the system is supplied with a voltage U, the relay R1 will be activated, after a time t, the relay R1 will be deactivated and the relay R2 will remain activated until supply termination. This function is available for MTIR2. | |
C - TEMPORIZED WITH SIGNAL B1 AND B2 | F24 | CONNECTION DELAY BY UP FLANK OF SIGNAL B1 AND DISCONNECTION DELAY BY UP FLANK OF SIGNAL B2 | Once the system is supplied with a voltage U, with the up flank of signal B1 is initiated a connection delay of the relays R1 and R2 with time t1. The relays will remain active until the arrival of a up flank of signal B2, which it will start a disconnection delay of the relays R1 and R2 with time t2. This function is available for MTIR2. | |
F25 | CONNECTION DELAY BY DOWN FLANK OF SIGNAL B1 AND DISCONNECTION DELAY BY DOWN FLANK OF SIGNAL B2 | Once the system is supplied with a voltage U, with the down flank of signal B1 is initiated a connection delay of the relays R1 and R2 with time t1. The relays will remain active until the arrival of a down flank of signal B2, which it will start a disconnection delay of the relays R1 and R2 with time t2. This function is available for MTIR2. | ||
F26 | CONNECTION DELAY BY UP FLANK OF SIGNAL B1 AND DISCONNECTION DELAY BY DOWN FLANK OF SIGNAL B2 | Once the system is supplied with a voltage U, with the up flank of signal B1 is initiated a connection delay of the relays R1 and R2 with time t1. The relays will remain active until the arrival of a down flank of signal B2, which it will start a disconnection delay of the relays R1 and R2 with time t2. This function is available for MTIR2. | ||
F27 | CONNECTION DELAY BY DOWN FLANK OF SIGNAL B1 AND DISCONNECTION DELAY BY UP FLANK OF SIGNAL B2 | Once the system is supplied with a voltage U, with the down flank of signal B1 is initiated a connection delay of the relays R1 and R2 with time t1. The relays will remain active until the arrival of an up flank of signal B2, which it will start a disconnection delay of the relaysR1 and R2 with time t2. This function is available for MTIR2. | ||
F - COMPLEX COUNTING | F28 | SYMMETRIC COUNTING FOR "N" DOWN FLANKS OF SIGNAL B1(INITIALY DEACTIVATED) AND "N" DOWN FLANKS OF SIGNAL B2 | Once the system is supplied with a voltage U, the relays R1 and R2 will remain inactive until the arrival of n pulses of the signal B1. With the down flank of the pulse number n of the signal B1 the relays, R1 and R2 will be activated. The relays will remain activated until the arrival of an up flank of signal B2. With the arrival of the up flank of the pulse n of the signal B2, the relays R1 and R2 will be deactivated. This function is available for MTIR2. | |
F29 | ASYMMETRIC COUNTING FOR "N1" DOWN FLANKS OF SIGNAL B1(INITIALY DEACTIVATED) AND "N2" DOWN FLANKS OF SIGNAL B2 | Once the system is supplied with a voltage U, the relays R1 and R2 will remain inactive until the arrival of n1 pulses of the signal B1. With the down flank of the pulse number n1 of the signal B1 the relays, R1 and R2 will be activated. The relays will remain activated until the arrival of an up flank of signal B2. With the arrival of the up flank of the pulse n2 of the signal B2, the relays R1 and R2 will be deactivated. This function is available for MTIR2. | ||
B - TEMPORIZED WITH SIGNAL B1 | F30 | UP FLANK DELAY OF SINGAL B1 BETWEEN RELAY CONNECTIONS OF R1 AND R2 | Once the system is supplied with a voltage U, with the up flank of a signal B1 the relay R1 will be activated for a programmed time t. Elapsed this time, the relay R1 will be deactivated and the relay R2 will be activated until supply termination. the state of this signal B2 is irrelevant in this function. This function is available for MTIR2. | |
D - TEMPORIZED SYMMETRIC / ASYMMETRIC | F31 | PULSE DELAY (R1 INITIALLY ACTIVATED AND R2 INITIALLY DEACTIVATED) | Once the system is supplied with a voltage U, a connection delay of the relays R1 with programmed time t1 is initiated. Elapsed this time, the relay R1 will be deactivated and the relay R2 will be activated, then a disconnection delay with programmed time t2 will be initiated for relay R2. This function is available for MTIR2. | |
B - TEMPORIZED WITH SIGNAL B1 | F32 | PULSE DELAY FOR UP FLANK OF B1 (INITIALLY R1 ACTIVATED AND R2 INITIALLY DEACTIVATED) | Once the system is supplied with a voltage U, after the up flank of the signal B1, a connection delay of the relays R1 with programmed time t1 is initiated. Elapsed this time, the relay R1 will be deactivated and the relay R2 will be activated, then a disconnection delay of the relay R2 with programmed time t2 will be initiated. the state of this signal B2 is irrelevant in this function. This function is available for MTIR2. | |
D - TEMPORIZED SYMMETRIC / ASYMMETRIC | F33 | SYMMETRIC CYCLE TIMED(R1 INITIALLY ACTIVATED) | Once the system is supplied with a voltage U, a symmetric cycle timed is initiated with a programmed time t. The first relay to be activated is the relay R1. This function is available for MTIR2. | |
H - LOADS CONTROL DC (PWM) | F34 | ASYMMETRIC CYCLE TIMED(R1 INITIALLY ACTIVATED) | Once the system is supplied with a voltage U, an asymmetric cycle timed is initiated with programmed times t1 and t2. The first relay to be activated is the relay R1. This function is available for MTIR2. | |
F35 | LOAD CONTROLS ON DC WITH POTENTIOMETER REGULATOR | Once the system is supplied with a voltage U, when you insert the potentiometer regulator in the RFS1LS connector, you can control the DC load with a generated PWM signal. | ||
F36 | PWM EDGE OF PULSE WIDTH FOR DC LOADS | Once the system is supplied with a voltage U, a modulation connection pulse width starts in relay R1, increasing the pulse width on-ramp edge during a t time. | ||
F37 | PWM DOWN OF PULSE WIDTH FOR DC LOADS | Once the system is supplied with a voltage U, a modulation connection pulse width starts in relay R1, decreasing the pulse width on-ramp edge during a t time. |