York Y34 User Manual

246653-YTG-E-0108

Johnson Controls Unitary Products

9

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