VAV Box Option

general

Operation information

must be rated for 12 ma @ 24VDC minimum. This input will override all VOM inputs, if the VOM option is on the unit.

Occupied/Unoccupied Contacts To provide night setback control if a remote panel with night setback was not ordered, install a field-supplied contact. This binary input provides the building’s occupied/unoccupied status to the RTM. It can be initiated by a time clock, or a building automation system control output.The relay’s contacts must be rated for 12 ma @ 24 VDC minimum. Refer to the appropriate wiring diagrams (attached to the unit control panel for the proper connection terminals in the unit control panel.

Emergency Stop Input

A binary input is provided on the RTM board for installation of a field-supplied normally closed (N.C.) switch to use during emergency situations to shut down all unit operations. When open, an immediate shutdown occurs. An emergency stop diagnostic enters the human interface and the unit will require a manual reset. Refer to the unit wiring diagrams (attached to the unit control panel for the proper connection terminals. The switch must be rated for 12 ma @ 24 VDC minimum. This input will override all VOM inputs, if the VOM option is on the unit.

To interlockVAV box operation with evaporator fan and heat/cool modes, wire the VAV boxes/air valves toVAV box control connections on the terminal block.

Supply Duct Static Pressure Control The RTM relies on input from the duct pressure transducer when a unit is equipped with IGV or VFD to position the IGV or set the supply fan speed to maintain the supply duct static pressure to within the static pressure setpoint deadband.

RTM Sensors

RTM sensors include: zone sensors with or without setpoint inputs and modes, supply air sensor, duct static pressure, outside air temperature, outside air humidity, airflow proving, and dirty filter.

Table O-GI-2. RTM sensor resistance vs. temperature

temperature, °F	resistance, Ω ohms	temperature, °F	resistance, Ω ohms
-40	346.1	71	11.60
-30	241.7	72	11.31
-20	170.1	73	11.03
-10	121.4	74	10.76
-5	103.0	75	10.50
0	87.56	76	10.25
5	74.65	77	10.00
10	63.8	78	9.76
15	54.66	79	6.53
20	46.94	80	9.30
25	40.40	85	8.25
30	34.85	90	7.33
35	30.18	100	5.82
40	26.22	105	5.21
45	22.85	110	4.66
50	19.96	120	3.76
55	17.47	130	3.05
60	15.33	140	2.50
65	13.49	150	2.05
66	13.15	160	1.69
67	12.82	170	1.40
68	12.50	180	1.17
69	12.19	190	0.985
70	11.89	200	0.830

Table O-GI-3. RTM setpoint analog inputs

cooling or heating setpoint input, °F	cooling setpoint input, °F	resistance, Ω
(using RTM as zone temp. source)	(using RTM as supply air temp. source)	resistance, Ω
ohms
40	40	1084
45	45	992
50	50	899
55	55	796
60	60	695
65	65	597
70	70	500
75	75	403
80	80	305
NA	85	208
NA	90	111

Table O-GI-4. RTM resistance value vs. system operating mode

resistance	CV units		VAV units
applied to RTM mode	CV units		VAV units
input terminals, ohms	fan mode	system mode	system mode
2320	auto	off	off
4870	auto	cool
7680	auto	auto	auto
10,770	on	off
13,320	on	cool
16,130	on	auto
19,480	auto	heat
27,930	on	heat

Note: Mode boundaries are 1000 to 40,000 ohms. Other boundaries are equal to the midpoint between the nominal mode resistance.

72	SCXG-SVX01B-EN

SCXG-SVX01B-EN specifications

The Trane SCXG-SVX01B-EN is an advanced variable refrigerant flow (VRF) system designed to provide efficient and flexible heating and cooling solutions for commercial and residential applications. This system exemplifies Trane's commitment to innovation, energy efficiency, and ease of installation, making it a standout choice in the industry.

One of the main features of the SCXG-SVX01B-EN is its ability to deliver precise temperature control across multiple zones. The system utilizes a modular design that allows for the connection of multiple indoor units to a single outdoor unit, enabling simultaneous heating and cooling in different areas of a building. This zoned comfort not only enhances occupant satisfaction but also contributes to energy savings by allowing for targeted climate control where it is most needed.

Trane's VRF technology is complemented by its inverter-driven compressors, which adjust their speed according to the demand for heating or cooling. This means that the system operates more efficiently than traditional systems by consuming less energy during partial load conditions. The SCXG-SVX01B-EN also integrates advanced heat recovery capabilities, allowing it to transfer heat from one zone to another, further optimizing energy usage.

The unit's compact design simplifies installation, making it suitable for both retrofit projects and new constructions. The flexible piping layout supports various configurations, allowing easy adaptation to the building's architecture. The model also incorporates intelligent controls, offering a user-friendly interface that enhances operational flexibility and promotes energy management.

In addition to its performance features, the Trane SCXG-SVX01B-EN emphasizes sustainability. It uses advanced refrigerants with low global warming potential (GWP), aligning with environmental regulations and helping to minimize the system's ecological footprint. The durable construction of the system ensures longevity and reliability, reducing maintenance costs and enhancing overall operational efficiency.

Finally, Trane supports its products with comprehensive warranties and a network of service professionals, ensuring that customers have access to expert assistance throughout the life cycle of their system. The SCXG-SVX01B-EN represents a blend of technology, efficiency, and versatility, making it an ideal choice for those seeking an effective heating and cooling solution.

Trane SCXG-SVX01B-EN manual VAV Box Option, Table O-GI-2. RTM sensor resistance vs. temperature

Models: SCXG-SVX01B-EN

general

VAV Box Option

Table O-GI-2. RTM sensor resistance vs. temperature

Table O-GI-3. RTM setpoint analog inputs

cool

SCXG-SVX01B-EN specifications