TZIDC, TZIDC-110, TZIDC-120 DIGITAL POSITIONER | CI/TZIDC/110/120-EN REV. E
CSA certification record
Certificate
Certificate
Class 2258 04
Class I, Div 1, Groups A, B, C and D
Class II, Div 1, Groups E, F, and G
Class III, Div 1, Enclosure Type 4X
Electrical data
Model TZIDC-110, P/N V18346-x032x2xx0x Intelligent Positioner
Input rated
Intrinsically safe with entity parameters of:
Terminals 11 / 12
Terminals 85 / 86
Terminals 41 / 42
When installed per installation Drawing No 901265
Temperature code
Max. ambient temperature
Note
•
The 'x' in P/N denotes minor mechanical variations or
optional features.
•
Local communication interface (LCI) shall not be used in
hazardous location.
•
Each pair of conductors of each intrinsic safety circuit shall
be shielded.
•
See also FM installation drawing No. 901265 on page 56.
1649904 (LR 20312)
PROCESS CONTROL EQUIPMENT
– Intrinsically Safe, Entity
– For Hazardous Locations
32 V DC; max. 15 mA
(powered by a SELV circuit)
U
= 24 V
C
= 2.8 nF
max.
i
I
= 250 mA
L
= 7.2 uH
max.
i
U
= 30 V
C
= 3.8 nF
max.
i
I
= 50 mA
L
= 0 uH
max.
i
U
= 16 V
C
= 60 nF
max.
i
I
= 20 mA
L
= 100 uH
max.
i
T4
85 °C
FM approvals
TZIDC-110 Positioner, Model V18346-a032b2cd0e
IS/I,II,III/1/ABCDEFG/T6,T5,T4
Ta = 40 °C, 55 °C, 85 °C-901265 Entity, FISCO
Entity and FISCO Parameters
Terminals
Type
Groups
+11 / −12
Entity
FISCO
FISCO
+51 / −52
Entity
+41 / −42
Entity
NI/I/2/ABCD/T6,T5,T4 Ta = 40 °C, 55 °C, 85 °C
S/II,III/2/EFG//T6,T5,T4 Ta = 40 °C, 55 °C, 85 °C
Enclosure type 4x
a
Case/mounting – 1, 2, 5 or 6
b Output/safe protection – 1, 2, 4 or 5
c
Option modules – 0 or 4
d Optional mechanical kit for digital position feedback –
0, 1 or 3
e
Design (varnish/coding) – 1 or E
Parameters
A-G
U
= 24 V
max.
I
= 250 mA
max.
P
= 1.2 W
i
A-G
U
= 17.5 V
max.
I
= 360 mA
max.
P
= 2.52 W
i
C-G
U
= 17.5 V
max.
I
= 380 mA
max.
P
= 5.32 nF
i
A-G
U
= 16 V
max.
I
= 20 mA
L
max.
A-G
U
= 16 V
max.
I
= 20 mA
L
max.
17
C
= 2.8 nF
i
L
= 7.2 µH
i
C
= 2.8 nF
i
L
= 7.2 µH
i
C
= 2.8 nF
i
L
= 7.2 µH
i
C
= 60 nF
i
= 100 µH
i
C
= 60 nF
i
= 100 µH
i