frzhmpj low voltage fire performance able joint kits foh cables · 2018-08-28 · frzhmpj low...
TRANSCRIPT
FRZHMPJ
Low Voltage Fire Performance Cable Joint Kits
For Prysmian Max-FOH cables
Straight joints for LV Un-armoured and Armoured Max-FOH Fire
performance cables with copper conductors :
Single Core 1.5mm² to 1000mm²
Multi Core 1.5mm² to 400mm²
Features and Benefits
Rated Voltage 1000V
Tested and approved to : BS EN 50393:2015 - Test methods and requirements for ac-
cessories for use on distribution cables of rated voltage 0,6/1,0 (1,2) kV
BS 6387:2013 - Test method for resistance to fire of cables required to maintain circuit integrity under fire conditions (categories C,W & Z)
IEC 61034-2:2005+A1:2013 – Measurement of smoke density of cables burning under defined conditions.
Low Hazard Isocyanate free JEM resin
Twin pack mixing in clear laminate sachets
Extremely low viscosity resin with enhanced adhesion
Rigid glass reinforced phenolic joint shells which are both fire retardant and LSOH.
Slim-line design for use with compression connectors.
Variants supplied for Un-armoured , SWA & AWA
Requires compression connectors which are supplied separately
MAX-FOH-FRJT-0617
Technical Information:
Low Voltage Straight Joints for 600/1000 Volt fire Performance polymeric insulated SWA cables
with copper conductors.
Tested and approved to BS EN 50393 : 2015
Fire tests on complete joints to BS 6387 categories C,W & Z
Versions for :
Unarmoured cables
SWA armoured cables include steel support rings bonds and copper braid cross-bonding
AWA armour cables include cross-bonding connectors to allow the AWA to cross over the
joint.
JEM Resin
Easier mixing in “Twin Pack” totally enclosed mixing in a clear laminate sachet.
Extremely low mix viscosity allows void free joint filling
JEM Resin is insensitive to moisture and will cure under water.
High flash point, non-flammable liquid - No special storage or transport requirements.
Not classified as irritating to the skin or eyes.
Does not cause skin sensitization.
Shell Dimensions ( mm )
A B C
FRZHMPJ2 ,2U , 2-1c 300 85 70
FRZHMPJ3 ,3U , 3-1c 405 100 80
FRZHMPJ4 ,4U , 4-1c 430 110 90
FRZHMPJ5 ,5U , 5-1c 560 160 130
FRZHMPJ6 ,6U , 6-1c 740 180 145
FRZHMPJ7 ,7U , 7-1c 870 190 145
FRZHMPJ8 ,8U , 8-1c 1015 205 180
MAX-FOH-FRJT-0217 2/7
MA
X-F
OH
-FR
JT-0
617
3
/7
M
AX
-FO
H-I
MA
X-F
OH
MA
X-F
OH
Insu
late
d, n
on
-sh
eath
ed
In
sula
ted
an
d s
he
ath
ed
Insu
late
d, a
rmo
ure
d a
nd
sh
eath
ed
M
AX
-FO
H-I
MA
X-F
OH
MA
X-F
OH
In
sula
ted
, no
n-s
he
ath
ed
Insu
late
d a
nd
sh
eat
hed
Insu
late
d, a
rmo
ure
d a
nd
sh
eat
he
d
C
op
per
/MG
T/LS
HF
C
op
per
/MG
T/X
LPE/
LSH
F
Co
pp
er/M
GT/
XLP
E/LS
HF/
AW
A/L
SHF
B
S72
11
IE
C 6
050
2-1
IEC
605
02-
1
4
50
/75
0V
6
00
/10
00V
60
0/1
000
V
(A
) U
nar
mo
ure
d
(A
) U
nar
mo
ure
d
(B
) A
rmo
ure
d
Co
re
Co
nd
mm
²
Insu
lati
on
th
ickn
ess
O
vera
ll Ø
Jo
int
In
sula
tio
n
thic
kne
ss
She
ath
Th
ick-
ne
ss
Ove
rall
Ø
Join
t
Un
der
Arm
ou
r Ø
A
rmo
ur
Ø
Ove
rall
Ø
UA
+ A
rm +
B
on
d Ø
Jo
int
1
1
.5
0
.7
4
FRZH
MP
J2U
0.7
1
.4
6.6
FR
ZHM
PJ2
U
1
2.5
0.8
4
.5
FRZH
MP
J2U
0.7
1
.4
7
FRZH
MP
J2U
1
4
1
5
.4
FRZH
MP
J2U
0.7
1
.4
7.6
FR
ZHM
PJ2
U
1
6
1
6
FR
ZHM
PJ2
U
0
.7
1.4
8
.1
FRZH
MP
J2U
1
10
1
7
FRZH
MP
J2U
0.7
1
.4
9
FRZH
MP
J2U
1
16
1
8.1
FR
ZHM
PJ2
U
0
.7
1.4
1
0.1
FR
ZHM
PJ2
U
1
25
1.2
9
.8
FRZH
MP
J2U
0.9
1
.4
12
FR
ZHM
PJ2
U
1
35
1.2
1
1.1
FR
ZHM
PJ2
U
0
.9
1.4
1
3.3
FR
ZHM
PJ2
U
1
50
1.4
1
2.8
FR
ZHM
PJ2
U
1
1
.4
14
.8
FRZH
MP
J2U
13
.8
1.2
5 1
9.5
3
1.3
FR
ZHM
PJ3
-1c
1
70
1.4
1
4.5
FR
ZHM
PJ2
U
1
.1
1.4
1
6.7
FR
ZHM
PJ2
U
1
5.7
1
.25
21
.7
33
.2
FRZH
MP
J4-1
c
1
95
1.6
1
6.9
FR
ZHM
PJ2
U
1
.1
1.5
1
8.9
FR
ZHM
PJ2
U
1
7.7
1
.25
23
.9
35
.2
FRZH
MP
J4-1
c
1
12
0
1.6
1
8.4
FR
ZHM
PJ2
U
1
.2
1.5
2
0.9
FR
ZHM
PJ2
U
1
9.4
1
.6
26
.3
37
.6
FRZH
MP
J4-1
c
1
15
0
1.8
2
0.7
FR
ZHM
PJ2
U
1
.4
1.6
2
3.1
FR
ZHM
PJ3
U
2
1.4
1
.6
28
.5
39
.6
FRZH
MP
J5-1
c
1
18
5
2
23
FR
ZHM
PJ3
U
1
.6
1.7
2
5.6
FR
ZHM
PJ3
U
2
3.7
1
.6
31
4
1.9
FR
ZHM
PJ5
-1c
1
24
0
2.2
2
6
FRZH
MP
J3U
1.7
1
.7
28
.4
FRZH
MP
J3U
26
.5
1.6
3
4
44
.7
FRZH
MP
J5-1
c
1
30
0
2.4
2
8.9
FR
ZHM
PJ3
U
1
.8
1.8
3
1.3
FR
ZHM
PJ3
U
2
9.2
1
.6
36
.7
47
.4
FRZH
MP
J5-1
c
1
40
0
2.6
3
2.1
FR
ZHM
PJ4
U
2
1
.9
34
.7
FRZH
MP
J4U
32
.8
2
41
.5
51
.8
FRZH
MP
J5-1
c
1
50
0
2.8
3
5.8
FR
ZHM
PJ4
U
2
.2
2.1
3
8.8
FR
ZHM
PJ5
U
3
6.5
2
4
5.4
5
5.5
FR
ZHM
PJ6
-1c
1
63
0
2.8
3
9.7
FR
ZHM
PJ5
U
2
.4
2.2
4
3.3
FR
ZHM
PJ5
U
4
0.8
2
4
9.9
5
9.8
FR
ZHM
PJ6
-1c
1
80
0
- -
2.6
2
.3
48
FR
ZHM
PJ5
U
4
5.7
2
.5
56
.2
65
.7
FRZH
MP
J6-1
c
1
10
00
-
-
2
.8
2.5
5
3.5
FR
ZHM
PJ5
U
5
0.8
2
.5
61
.5
70
.8
FRZH
MP
J6-1
c
MA
X-F
OH
Insu
late
d a
nd
sh
eath
ed
MA
X-F
OH
-FR
JT-0
617
4
/7
M
AX
-FO
H
In
sula
ted
an
d s
he
ath
ed
C
op
pe
r/M
GT/
XLP
E/LS
HF
IE
C 6
05
02-
1
6
00
/100
0V
(C
) U
nar
mo
ure
d
Co
re
Co
nd
mm
²
Insu
lati
on
th
ickn
ess
Sh
eat
h T
hic
kne
ss
Ove
rall
Ø
Join
t
Co
re
Co
nd
mm
²
Insu
lati
on
th
ickn
ess
Sh
eat
h T
hic
kne
ss
Ove
rall
Ø
Join
t
2
1
.5
0
.7
1.8
1
1.3
FR
ZHM
PJ2
u
3
1
6
1
1
.8
19
.9
FRZH
MP
J2u
2
2.5
0.7
1
.8
12
.1
FRZH
MP
J2u
3
25
1.2
1
.8
24
.1
FRZH
MP
J2u
2
4
0
.7
1.8
1
3.2
FR
ZHM
PJ2
u
3
3
5
1
.2
1.8
2
7.1
FR
ZHM
PJ3
u
2
6
0
.7
1.8
1
4.3
FR
ZHM
PJ2
u
3
5
0
1
.4
1.8
3
0.3
FR
ZHM
PJ3
u
2
10
0.7
1
.8
16
.3
FRZH
MP
J2u
3
70
1.4
1
.9
35
FR
ZHM
PJ4
u
2
16
0.7
1
.8
19
.7
FRZH
MP
J2u
3
95
1.6
2
3
9.5
FR
ZHM
PJ5
u
2
25
0.9
1
.8
22
.5
FRZH
MP
J2u
3
12
0
1.6
2
.1
43
.5
FRZH
MP
J5u
2
35
0.9
1
.8
25
.3
FRZH
MP
J2u
3
15
0
1.8
2
.3
48
.3
FRZH
MP
J5u
2
50
1
1.8
2
8.4
FR
ZHM
PJ3
u
3
1
85
2
2
.4
53
.5
FRZH
MP
J5u
2
70
1.1
1
.8
32
.4
FRZH
MP
J4u
3
24
0
2.2
2
.6
60
.2
FRZH
MP
J6u
2
95
1.1
2
3
7
FRZH
MP
J4u
3
30
0
2.4
2
.8
66
.4
FRZH
MP
J6u
2
12
0
1.2
2
.1
40
.6
FRZH
MP
J5u
3
40
0
2.6
3
7
4
FRZH
MP
J7u
2
15
0
1.4
2
.2
44
.9
FRZH
MP
J5u
4
1.5
0.7
1
.8
13
FR
ZHM
PJ2
u
2
18
5
1.6
2
.3
49
.8
FRZH
MP
J5u
4
2.5
0.7
1
.8
14
FR
ZHM
PJ2
u
2
24
0
1.7
2
.5
56
FR
ZHM
PJ6
u
4
4
0.7
1
.8
15
.2
FRZH
MP
J2u
2
30
0
1.8
2
.6
61
.6
FRZH
MP
J6u
4
6
0
.7
1.8
1
6.6
FR
ZHM
PJ2
u
2
40
0
2
2.9
6
8.9
FR
ZHM
PJ6
u
4
1
0
0
.7
1.8
1
9
FRZH
MP
J2u
3
1.5
0.7
1
.8
12
FR
ZHM
PJ2
u
4
1
6
0
.7
1.8
2
2.1
FR
ZHM
PJ2
u
3
2.5
0.8
1
.8
12
.8
FRZH
MP
J2u
4
25
0.9
1
.8
26
.5
FRZH
MP
J2u
3
4
1
1
.8
14
FR
ZHM
PJ2
u
4
3
5
0
.9
1.8
2
9.7
FR
ZHM
PJ3
u
3
6
1
1
.8
15
.2
FRZH
MP
J2u
4
50
1
1.9
3
3.9
FR
ZHM
PJ4
u
3
10
1
1.8
1
7.3
FR
ZHM
PJ2
u
4
7
0
1
.1
2
38
.9
FRZH
MP
J4u
MA
X-F
OH
Insu
late
d a
nd
sh
eath
ed
MA
X-F
OH
-FR
JT-0
617
5
/7
M
AX
-FO
H
In
sula
ted
an
d s
he
ath
ed
C
op
pe
r/M
GT/
XLP
E/LS
HF
IE
C 6
05
02-
1
6
00
/100
0V
(C)
Un
arm
ou
red
Co
re
Co
nd
m
m²
In
sula
tio
n t
hic
kne
ss
She
ath
Th
ickn
ess
O
vera
ll Ø
Jo
int
C
ore
C
on
d m
m²
In
sula
tio
n t
hic
kne
ss
She
ath
Th
ickn
ess
O
vera
ll Ø
Jo
int
4
9
5
1
.1
2.2
4
4.1
FR
ZHM
PJ5
u
5
3
00
1
.8
3
82
.2
FRZH
MP
J7u
4
12
0
1.2
2
.3
48
.5
FRZH
MP
J5u
5
40
0
2
3.3
9
2
FRZH
MP
J7u
4
15
0
1.4
2
.4
53
.6
FRZH
MP
J5u
6
1.5
0.7
1
.8
15
.2
FRZH
MP
J2u
4
18
5
1.6
2
.6
59
.7
FRZH
MP
J6u
6
2.5
0.7
1
.8
16
.5
FRZH
MP
J2u
4
24
0
1.7
2
.8
67
.1
FRZH
MP
J6u
7
1.5
0.7
1
.8
15
.2
FRZH
MP
J2u
4
30
0
1.8
3
7
4
FRZH
MP
J7u
7
2.5
0.7
1
.8
16
.5
FRZH
MP
J2u
4
40
0
2
3.3
8
2.7
FR
ZHM
PJ7
u
1
0
1.5
0.7
1
.8
19
FR
ZHM
PJ2
u
5
1.5
0.7
1
.8
14
FR
ZHM
PJ2
u
1
0
2.5
0.7
1
.8
20
.7
FRZH
MP
J2u
5
2.5
0.7
1
.8
15
.2
FRZH
MP
J2u
12
1
.5
0
.7
1.8
1
9.6
FR
ZHM
PJ2
u
5
4
0
.7
1.8
1
6.6
FR
ZHM
PJ2
u
1
2
2.5
0.7
1
.8
21
.4
FRZH
MP
J3u
5
6
0
.7
1.8
1
8.2
FR
ZHM
PJ2
u
1
4
1.5
0.7
1
.8
20
.6
FRZH
MP
J3u
5
10
0.7
1
.8
20
.7
FRZH
MP
J2u
14
2
.5
0
.7
1.8
2
2.4
FR
ZHM
PJ3
u
5
16
0.7
1
.8
24
.3
FRZH
MP
J2u
16
1
.5
0
.7
1.8
2
1.7
FR
ZHM
PJ3
u
5
25
0.9
1
.8
29
FR
ZHM
PJ3
u
1
6
2.5
0.7
1
.8
23
.7
FRZH
MP
J3u
5
35
0.9
1
.8
32
.7
FRZH
MP
J4u
19
1
.5
0
.7
1.8
2
2.9
FR
ZHM
PJ3
u
5
50
1
1.9
3
7.5
FR
ZHM
PJ5
u
1
9
2.5
0.7
1
.8
25
FR
ZHM
PJ4
u
5
70
1.1
2
4
3
FRZH
MP
J5u
24
1
.5
0
.7
1.8
2
6.7
FR
ZHM
PJ4
u
5
95
1.1
2
.2
48
.8
FRZH
MP
J5u
24
2
.5
0
.7
1.8
2
9.2
FR
ZHM
PJ4
u
5
12
0
1.2
2
.3
53
.6
FRZH
MP
J5u
27
1
.5
0
.7
1.8
2
7.3
FR
ZHM
PJ4
u
5
15
0
1.4
2
.4
59
.6
FRZH
MP
J6u
27
2
.5
0
.7
1.8
2
9.8
FR
ZHM
PJ4
u
5
18
5
1.6
2
.6
66
.3
FRZH
MP
J6u
37
1
.5
0
.7
1.8
3
0.5
FR
ZHM
PJ4
u
5
24
0
1.7
2
.8
74
.5
FRZH
MP
J7u
37
2
.5
0
.7
1.9
3
3.7
FR
ZHM
PJ4
u
MA
X-F
OH
-FR
JT-0
617
6
/7
M
AX
-FO
H
In
sula
ted
, arm
ou
red
an
d s
hea
thed
M
AX
-FO
H
In
sula
ted
, arm
ou
red
an
d s
hea
thed
C
op
per
/MG
T/X
LPE/
LSH
F/SW
A/L
SHF
IE
C 6
050
2-1
, BS
78
46
6
00
/10
00V
(D
) A
rmo
ure
d
Co
res
Co
nd
mm
²
Un
der
Arm
ou
r Ø
A
rmo
ur
Ø
Ove
rall
Ø
UA
+ A
rm
+Bo
nd
Ø
Stra
igh
t Jo
int
C
ore
s C
on
d m
m²
U
nd
er A
rmo
ur
Ø
Arm
ou
r Ø
O
vera
ll Ø
U
A +
Arm
+B
on
d Ø
St
raig
ht
Join
t
2
1
.5
9
.7
0.9
1
5.1
2
6.5
FR
ZHM
PJ2
3
16
18
.1
1.2
5 2
4.7
3
5.6
FR
ZHM
PJ4
2
2.5
10
.5
0.9
1
5.9
2
7.3
FR
ZHM
PJ2
3
25
22
1
.6
29
.2
40
.2
FRZH
MP
J5
2
4
1
1.6
0
.9
17
2
8.4
FR
ZHM
PJ2
3
35
24
.9
1.6
3
2.1
4
3.1
FR
ZHM
PJ5
2
6
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