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Warnings list

When the simulator is launched, checks are made on the schematic to be simulated.

  • Blocking warnings: the simulator stops checking at the first error encountered, and prevents simulation until the error has been resolved.
  • Non-blocking warnings : the simulator replaces the value of parameters not found or unreadable by default values and authorizes simulation anyway.

Blocking warnings

BLOCKING
{nb_doublons} objects named {name} are present in the schematic, only one is allowed
the {master} component is missing to control the {slave}
the {slave} object is incompatible with the {master} object
The {name} object that controls steering is not a motor
object {name} that controls steering does not exist
Erroneous API address: Expected format: %{I,Q}m.c with m[0.5] and c[0.31], example: %I1.12
Erroneous API address: Expected format: %{IW, QW}m.c with m[0.5] and c[0.3], example: %IW1.1
The parent of the API object does not exist
I/O marker unreadable: must start with %
Parent {name} does not exist
pin {pin} of object {name} is not connected
'dropped_object' {name} does not exist
'dropped_object' {name} is not an object of the '_physics'family
object {label_pression} is not a label_pression
object {label_pression} does not exist
the key 'controle1' of {name'} is undefined
key 'controle2' of {name'} is undefined
control object {ctrl} missing for {slave}
the two objects named {name} must be of type SET and RESET
the number of {name} objects must be strictly equal to 2 (SET and RESET)
two objects named {name} have incompatible families: {slave} and {master}
HMI object {name} is incompatible with object {name}
sensor collision identifier {name} doesn't find a match
false connection found: invalid arrival/departure folio
sending {sending} in folio {folio} not connected
object {name} {folio} is not simulatable
the schema to be simulated is too large
serious problem for the component: software bug. Please contact support

Non-blocking warnings

{OUT_INTERVAL}
'alpha' {OFF_INTERVAL} (0 <= alpha <= 100), value set to 50%"
'hang' {OFF_INTERVAL} [true,false], value set to false
'etat_init' {HORS_INTERVALLE} [true,false], value set to false
'delai' {HORS_INTERVALLE} (0.1 <= delai <= 30), value set to 1s
'mass' {OFF_INTERVAL} (0.1 <= mass <= 100 kg)
'friction' {OFF_INTERVAL} (0 <= friction <= 100)
'port' {OFF_INTERVAL} (500 <= port <= 1000), value set to 502
'adresse_table_echange' (0 <= adress <= 1990), value set to 400
'ID_unite' {OFF_INTERVAL} (0 <= ID_unite <= 247), value set to 111
'gravity' {OFF_INTERVAL} (0 <= gravity <= 10), set value 0
'damping' {HORS_INTERVALLE} (0 <= damping <= 10), value set to 0
'damping' {OFF_INTERVAL} (0 <= damping <= 10), {VALUE_SET_TO} 0
'value' {OFF_INTERVAL} (1pF <= value <= 10000uF), value set to 100uF
'value' {OFF_INTERVAL} (1e-3 <= value <= 10e6), value set to 100 ohms
'value' {OFF_INTERVAL} (1e-3 <= value <= 10e6), value set to 100 ohms
'alpha' {OFF_INTERVAL} (0 <= alpha <= 100), value set to 50%
'pn' {HORS_INTERVALLE} (10 W <= Pn <= 22 kW), value set to {values['pn']/1000} kW
'vn' {OFF_INTERVAL} (12 <= vn <= 400 V), value set to {values['vn']} V
'vfrein' {OFF_INTERVAL} (12 <= v <= 400), value set to {values['vn']} V
'nm' {OFF_INTERVAL} (700 <= nm <= 3000), value set to {values['nm']} rpm
'nm1' {OFF_INTERVAL} (700 <= nm1 <= 3000), value set to {values['nm1']} rpm
'nm2' {OFF_INTERVAL} (700 <= nm2 <= 3000), value set to {values['nm2']} rpm
'cos' {OFF_INTERVAL} (0.5 <= cos(phi) <= 1), value set to {values['cos']}
'yield' {OFF_INTERVAL} (0.35 <= yield <= 1), value set to {values['yield']}
venroulement' {HORS_INTERVALLE} (24V <= venroulement <= 400V), value set to 230 V
'venroulement1' {HORS_INTERVALLE} (24V <= vcoil1 <= 400V), value set to 230 V
'venroulement2' {HORS_INTERVALLE} (24V <= venroulement2 <= 400V), value set to 230 V
vinduit' {OFF_INTERVAL} (12V <= vinduit <= 320V), value set to 100 V
'coupling' {OFF_INTERVAL} (star or delta), selected coupling: star
'coupling1' {OFF_INTERVAL} (star or delta), selected coupling: star
'coupling2' {HORS_INTERVALLE} (star or delta), selected coupling: star
Idn' {OFF_INTERVAL} (10 mA <= Idn <= 10000 mA), value set to 100 mA
'retard_diff' {OFF_INTERVAL} (0 ms<= retard_diff <= 10000 ms), value set to 0 ms
'retard_rth' {HORS_INTERVALLE} (1s<= retard_rth <= 30s ), value set to 10 s
'retard' {HORS_INTERVALLE} (0 ms<= retard <= 10000 ms), value set to 0ms
'retard_rth' {HORS_INTERVALLE} (1s<= retard_rth <= 30s ), value set to 10 s
'retard' {OFF_INTERVAL} (0 ms<= retard <= 10000 ms), value set to 0 ms
'Ith' {OFF_INTERVAL} (0.1 A<= Ith <= 100 A), value set to 10 A
'In' {OFF_INTERVAL} (0.5 A<= In <= 100 A), value set to 10 A
'curve' {OFF_INTERVAL} (B, C or D), value set to C
'typeF' {OFF_INTERVAL} (gG or aM), type selected: aM
'Pn' {OFF_INTERVAL} (0.5 VA <= Pn <= 200 VA), value set to {values['pn']} W
'vn' {OFF_INTERVAL} (12 <= vn <= 400), value set to {values['vn']} V
'Pn' {OFF_INTERVAL} (0.5 W <= Pn <= 2 kW), value set to {values['pn']} W
'color' {OFF_INTERVAL} (red, green, blue, orange, white), value set to 'red'
'tone' {OFF_INTERVAL} (0.5s <= tone <= 30s), value set to 1s
'toff' {OFF_INTERVAL} (0.5s <= toff <= 30s), value set to 1s
'output_range' {OFF_INTERVAL} min value = (0, 4) and max value = 20, value set to (4,20) mA
'output_range' {OFF_INTERVAL} min value = -30 and max value = 30, value set to (0.10) V
'output_scale' {OFF_INTERVAL} min value = -32768 and max value = 32767, value set to (0.1000)
'input_scale' {OFF_INTERVAL} min value = -32768 and max value = 32767, value set to (0,1000)
'voltage_range' {OFF_INTERVAL} min value = -1000 and max value = 1000, value set to (0.10) V
'current_range' {OFF_INTERVAL} (min,max) = (-1, 1) A, value set to (4,20) mA
'pressure' {OFF_INTERVAL} (0 <= pressure <= 10.0 bar), value set to 6 bar
've' {OFF_INTERVAL} (5 <= ve <= 400), value set to {values['vin']} V
'vs' {OFF_INTERVAL} (5 <= vs <= 400), value set to {values['vout']} V
'vs1' {OFF_INTERVAL} (5 <= vs1 <= 400), value set to {values['vout1']} V
'vs2' {OFF_INTERVAL} (5 <= vs2 <= 400), value set to {values['vout2']} V
'vbat' {OFF_INTERVAL} (0 <= vbat <= 400), value set to {values['vbat']} V
{power} {OFF_INTERVAL} (90 W <= {power} <= 22 kW), value set to {values[{power}]/1000} kW
UNREADABLE
'masse' {UNREADABLE} value set to 1 kg
'friction' {UNREADABLE} value set to 1
'ip_address' {UNREADABLE} value set to 127.0.0.1
'port' {UNREADABLE} value set to 502
'adresse_table_echange' {UNREADABLE} value set to 400
'ID_unite' {UNREADABLE} value set to 111
'gravity' {UNREADABLE} value set to 0
'damping' {UNREADABLE} value set to 0
'damping' {UNREADABLE} {VALUE_SET_TO} 0
'value' {UNREADABLE} value set to 100 uF
'value' {UNREADABLE} value set to 100 ohms
'value' {UNREADABLE} value set to 100 ohms
'alpha' {UNREADABLE} value set to 50%
'Pn' {UNREADABLE} value set to {values['pn']/1000} kW
'vn' {UNREADABLE} value set to {values['vn']} V
'v' {UNREADABLE} value set to {values['vn']} V
'nm' {UNREADABLE} value set to {values['nm']} rpm
'nm1' {UNREADABLE} value set to {values['nm1']} rpm
'nm2' {UNREADABLE} value set to {values['nm2']} rpm
'cos' {UNREADABLE} value set to {values['cos']}
'rendement' {UNREADABLE} value set to {values['rendement']}
'venroulement' {UNREADABLE} value set to {values['venroulement']/0.98:2.0f} V
'venroulement1' {UNREADABLE} value set to {values['venroulement1']/0.98:2.0f} V
'venroulement2' {UNREADABLE} value set to {values['venroulement2']/0.98:2.0f} V
'vinduit' {UNREADABLE} value set to {values['va']/0.98:2.0f} V
'Idn' {UNREADABLE} value set to {values['idn']} mA
'retard_diff' {UNREADABLE} {VALUE_SET_TO} {values['retard_diff']} ms
'retard_rth' {UNREADABLE} value set to {values['retard_rth']} s
'retard' {UNREADABLE} value set to {values['retard']} ms
'Ith' {UNREADABLE} {VALUE_SET_TO} {values['ith']} A
'In' {UNREADABLE} value set to {values['in']} A
'pn' {UNREADABLE} value set to {values['pn']} W
'vn' {UNREADABLE} value set to {values['vn']} V
'color' {UNREADABLE} value set to 'red'
'vn' {UNREADABLE} value set to 24 V
'ton' {UNREADABLE} value set to 1s
'toff' {UNREADABLE} value set to 1s
output_type' {UNREADABLE} (output_type = V or I), 'output_type' set to 'V'
'output_type' {UNREADABLE} (output_type = V or I), 'output_type' set to 'V'
'output_range' {UNREADABLE} value set to (4.20) mA
'output_range' {UNREADABLE} value set to (0.10) V
'output_scale' {UNREADABLE} value set to (0,1000)
input_type' {UNREADABLE} (input_type = V or I), 'input_type' set to 'V'
'input_type' {UNREADABLE} (input_type = V or I), 'input_type' set to 'V'
'input_range' {UNREADABLE} value set to (4.20) mA
'input_range' {UNREADABLE} value set to (0.10) V
'input_scale' {UNREADABLE} value set to (0,1000)
'voltage_range' {UNREADABLE} value set to (0,10) V
'current_range' {UNREADABLE} value set to (4.20) mA
'pressure' {UNREADABLE} value set to {values['pressure']} bar
've' {UNREADABLE} value set to {values['vin']} V
'vs' {UNREADABLE} value set to {values['vout']} V
'vs1' {UNREADABLE} value set to {values['vout1']} V
'vs2' {UNREADABLE} value set to {values['vout2']} V
'vbat' {UNREADABLE} value set to {values['vbat']} V
'format' {UNREADABLE} (format = ac or dc), 'format' set to 'dc'
{power} {UNREADABLE} value set to {values[{power}]/1000} kW
parameter {k} {UNREADABLE} factory value {values[k]} {limits[k][0]} selected