246653-YTG-E-0108
Johnson Controls Unitary Products
9
NOMENCLATURE
12
3
4
CONTROL
ADDITIONAL
D = SYNTHESYS CONTROL
CONFIGURATION
VOLTAGE
E = SYNTHESYS CONTROL,
OPTIONS
2 = 208/230-60
DISC., 110V OUTLET
Cu/Cu Condenser Coil
3 = 380-60
F = SYNTHESYS, DISC.
Cu/Cu Evaporator Coil
4 = 460-60
Exhaust VFD (Custom
e
r)
5 = 575-60
H = SIMPLICITY CONTROL
(see notes 3 & 7)
7 = 380/415-50
I = SIMPLICITY CONTROL, DISC
NOTES:
110V OUTLET
1.
108KW not available with 208/230V.
J = SIMPLICITY CONTROL,
* Premium Cabinet (6 doors)
2.
Standard efficiency
motor meets Canadian
DISC, NO 110V OUTLET
* Standard Cabinet (4 doors)
ID BLOW
ER
(See note 4)
minimum efficiency
regulations mandated
K = SIMPLICITY CONTROL W
/MODLINC
* Drain Pan - powder coat
A = a, f, i
L
= d, g, j
W
= d, e, j
in Canadian Energy
Efficiency
Regulations.
L = SIMPLICITY CONTROL W
/ MODLINC
* Drain Pan - stainless steel
B = a, g, i
M
= b, f, i
X
= d, f, h
3.
(VFD-CUSTOMER) = Wired for VFD
DISC, 110V OUTLET
C = a, f, j
N
= b, f, j
Y
= b, e, h
only
; VFD will be custom
er supplied and
M = SIMPLICITY CONTROL W
/MODLINC
*
must
m
a
ke selections
D = a, g, j
O
= b, g, i
Z
= b, e, i
field installed. If VFD Exh is also
DISC, NO 110V OUTLET
N = YCCS CONTROL
P = YCCS CONTROL W/DISC., 110V OUTLET
Q = YCCS ZONING CONTROL
R = YCCS ZONING CONTROL W/DISC.,
110V OUTLET
S = YCCS - VAV CONTROL
T = YCCS - VAV CONTROL W/DISC.,
110V OUTLET
in these options
E = a, e, h
P
= b, g, j
2
= b, e, j
specified, it will also be cust supplied.
F = a, e, i
Q
= c, f, i
3
= b, f, h
4.
VAV ID Blower requires hot gas by
pass .
G = a, e, j
R
= c, f, j
4
= c, e, h
5.
Power exhaust and barometric relief not
H = a, f, h
S
= c, g, i
6
= c, e, i
available in end return configuration.
CONFIGURATION
I = d, f, i
T
= c, g, j
7
= c, e, j
6.
Air foil fan available on cooling only
.
A = 1,2
1 - BOTTOM RETURN
J = d, f, j
U
= d, e, h
8
= c, f, h
9 = d, g, h
Contact engineering for
B = 1,4
2 - BOTTOM SUPPLY
K = d, g, i
V
= d, e, i
air foil applications.
C = 1,5
3 - END RETURN
(5
)
Air Volum
e
7.
Only
available with Hi EFF m
o
tors
ECONOMIZER
D = 3,2
4 - REAR SUPPLY
a = CV
A = DUAL ENTH Low leak type
E = 3,4
5 - FRONT SUPPLY
b = VAV (VFD-FACTORY INSTALLED)
B = SINGLE ENTH Low leak type
F = 3,5
c = BYPASS FACTORY VFD
C = DRY BULB ENTH Low leak type
FRONT SUPPLY - COOLING ONLY
d = VAV (VFD-CUSTOMER)
(3)
D = MANUAL Low leak (Not w/PE)
HOT WATER
, STEAM
& ELECTRIC HEAT -
Fan (See note 6)
E = NONE
BOTTOM SUPPLY ONLY
e = FORW
ARD CURVE FAN Class I
B = 2,3,5,7
M
= 1,3,6,8
X
= 2,4,0,7
F = DUAL ENTH Std type
GAS HEAT - BOTTOM OR REAR SUPPLY ONLY
f = FORW
ARD CURVE FAN Class II
C = 1,4,5,7
N
= 2,3,6,8
Y
= 1,3,9,8
G = SINGLE ENTH Std type
g = AIR FOIL FAN [always Class II]
D = 2,4,5,7
O
= 1,4,6,8
Z
= 2,3,9,8
H = DRY BULB Std type
HEAT SOURCE
E = 1,3,6,7
P
= 2,4,6,8
2
= 2,4,9,8
N = NATURAL GAS
Blower Mount
F = 2,3,6,7
Q
= 1,3,9,7
3
= 1,3,0,8
S = NATURAL GAS, SS HEAT EXCHANGER
h = Neoprene
G = 1,4,6,7
R
= 2,3,9,7
4
= 2,3,0,8
EXHAUST
(S
ee note 5)
D = NATURAL GAS, MODULATING HEAT*
i = 1 inch deflection spring
H = 2,4,6,7
S
= 1,4,9,7
5
= 1,4,0,8
A = BARO
J = 2, 5
S
= A, 3
T = NATURAL GAS, MODULATING HEAT, SS *
j = 2 inch deflection spring
I = 1,3,5,8
T
= 2,4,9,7
6
= 2,4,0,8
B = 1, 3
K
= 2, 6
T
= A, 4
HEAT EXCHANGE
R
J = 2,3,5,8
U
= 1,3,0,7
7
= 1,4,9,8
C = 1, 4
L
= 2, 7
U
= A, 5
E = ELECTRIC HEAT
K = 1,4,5,8
V
= 2,3,0,7
D = 1, 5
M
= 2, 8
V
= A, 6
C = COOLING ONLY
9 = Non-Std
E = 1, 6
N
= NONE
W
= A, 7
W
= HOT W
A
TER COIL
ID MOTOR
(See note 2)
F = 1, 7
O
= 1, 9
X
= A, 8
X = STEAM COIL
1 = 10 HP STD
Condenser Coil
Head Press. Ctrl.
G = 1, 8
P
= 1, 0
Y
= A, 9
2 = 15 HP STD
1 = STANDARD
7 = YES
H = 2, 3
Q
= 2, 9
Z
= A, 0
3 = 20 HP STD
2 = TECHNICOAT
8 = NO
I = 2, 4
R
= 2, 0
2
= 8,000 CFM ERV
HEAT CAPACITY
4 = 25 HP STD (Except 25T)
Piping
(See note 4)
3 = 13,000 CFM ERV
3 = 267 MBH
5 = 10 HI-EFF
3 = STANDARD 4 = HOT GAS BYPASS
5 = 533 MBH
6 = 15 HI-EFF
Evaporator Coil
9 = Non Std Config
8 = 800 MBH (40T ONLY)
7 = 20 HI-EFF
5 = STANDARD
Power Exhaust
4 = 40 KW
8 = 25 HI-EFF (Except 25T)
6 = HI-CAP (30T/40T R22 ONLY)
1 = MODULATING DAMPERS
A = VFD MODULATING
MOTOR
8 = 80 KW
9 = 7.5 HP STD (25T Only)
9 = STD W
/TECHNICOAT
2 = NON-MOD. (ON/OFF)
1 = 108 KW
(1)
0 = 7.5 HI-EFF (25T Only)
0 = HI-CAP W
/T-COAT (30T/40T R22)
0 (ZERO) NO HEAT
Motor
1 = 1 ROW
0 = 5 HP HI-EFF (25T Only)
9 = 5 HP (25T Only)
2 = 2 ROW
3 = 7.5 HP
6 = 7.5 HP HI-EFF
1 = 1 ROW
4 = 10 HP
7 = 10 HP HI-EFF
5 = 15 HP (Except 25 Ton)
8 = 15 HP HI-EFF (Except 25 Ton)
Config
A
13
D
14
W
= 1,4,0,7
3
3
N
5
A
4
PACKAGE
3
6
4
7
FILTERS
C
12
B
8
1
9
A
10
A
11
GENERATION
3
2
Y
1
Y = York Brand R22
A = STAND.
B = 65%
C = 95%
D = 2" HI-EFF
A = 1,3,5,7
REFRIGERATION
(30T/40T)
3 = 30 TON
4 = 40 TON
2 = 25 TON
L = 2,4,5,8
BASIC UNIT
Class I blower is limited to 15HP in 25/30Ton
Class I blower is limited to 20HP in 40Ton
Class II blowers are not HP limited