Installation, Wiring, Flexible Conduit Fittings

INSTALLATION

ELECTRIC SHOCK HAZARD. Disconnect all power before installing or servicing heater. Failure to do so could result in personal injury or property damage. Heater must be installed by a qualified person in accor- dance with the National Electrical Code, NFPA 70.

1.Before installing the type GTF heater, inspect it for possible dam- age which may have occurred during shipment. Also, check to insure that the line voltage is the same as that stamped on the nameplate.

2.IMPORTANT: Mount heater in the tank so the liquid level will always be above the effective heated portion of the heater. Provide expansion tank if necessary.

FIRE HAZARD. If the heater is not properly sub- merged, the heating elements will overheat and could result in a fire or damaged equipment.

3.Where work will pass over or near equipment, additional protec- tion such as a guard, may be needed.

4.In an electroplating operation the heaters are not, under any cir- cumstance, to be placed between the electrodes and the work.

5.A drip loop is recommended to minimize passage of moisture along wiring into terminal box and connections.

FIRE HAZARD. Since heaters are capable of devel- oping high temperatures, extreme care should be taken to:

A.Avoid contact between heater and combustible material.

B.Keep combustible materials far enough away to be free of the effects of high temperatures.

WIRING

ELECTRIC SHOCK HAZARD. Any installation involving electric heaters must be performed by a qualified person and must be effectively grounded in accordance with the National Electrical Code to eliminate shock hazard.

1.Electrical wiring to heater must be installed in accordance with the National Electrical Code and local electrical codes by a quali- fied person.

2.When element wattages are not equal, heaters must not be con- nected in series.

3.Under no condition should the conduit be cut shorter, or fumes will enter the cable and will be drawn into the heater and condense inside. The wiring will then be attacked and will shorten heater life.

4.Tamperproof wiring — epoxy imbedded prevents field rewire of individual elements.

Representative wiring diagrams for heaters with Single use fuse (F) or Resetable fuse (RF) —

Single phase heater circuit using a SPST thermostat. Line Voltage and/or current do not exceed thermostat or thermal fuse rating (Figure 3).

Ground			Green
L2			Black
L2
L1	*	*	Black
	*	*	Black
Fused	Thermal Fuse
Fused	Thermostat
Disconnect
(Customer Supplied)
	Figure 3		Heater
	Figure 3

One Single phase heater or (3) single phase heaters equal in size and each having a thermal fuse wired as a 3 phase heater circuit using a DPST thermostat. Line voltage and current do not exceed thermostat or thermal fuse(s) rating (Figure 4). Dotted line and L3 indicates 3 phase connections.

Single phase or 3 phase heater circuit. Line voltage and/or current exceeds thermostat or thermal fuses ratings (Figure 5). Dotted line and L3 indicates 3 phase connections.

Ground	Green
		Black
L3
L2		Black
L1
Fused Disconnect		Black
Fused Disconnect
L2		Heater
L1	*	*
Thermostat		Magnetic
(Customer Supplied)		Contactor
(Customer Supplied)		Thermal Fuses
		Thermal Fuses
		Figure 5

Flexible Conduit Fittings —

Washer		Ferrule	Nut	Conduit
		Insert
			Sealing
Locknut	Body		Insert

1.Cut conduit. Slide nut and sealing insert onto the conduit.

2.Screw the ferrule insert into one end of the flexible conduit.

3.Seat the ferrule insert inside of the body, seat the sealing insert and hand tighten the cap onto the body.

4.Repeat steps 1 thru 3 above for the other end of the conduit after pulling the wires.

5.If the fitting is used in a threaded hole, first thread the body into the hole then follow steps 1 thru 3.

6.If the fitting is used thru an opening* use the locknut and plastic washer to fasten it.

Ground	Green		* Opening for 1/2” NPT thread is 7/8”.
Ground	Green
L3	*	*
	*	*
L2	*	*	Black
	*	*	Black
L1	*	*
	*	*
Fused	Thermostat	Thermal Fuses
Fused	Thermostat
Disconnect
(Customer Supplied)
		Black	Black
			Heater

Figure 4

PD444-2 specifications

The Chromalox PD444-2 is a sophisticated temperature control device designed for a variety of industrial applications. It stands out due to its reliability, precision, and versatility, making it an ideal choice for processes that require meticulous temperature management.

One of the main features of the PD444-2 is its advanced control technology. The device utilizes a digital microprocessor to ensure accurate temperature regulation. This technology allows for precise monitoring and adjustment of temperature settings, minimizing fluctuations that could adversely affect processes or product quality. The microprocessor capability also enhances the device's efficiency, allowing for rapid response times to changing temperature requirements.

Another significant characteristic of the PD444-2 is its user-friendly interface. The control panel is designed for intuitive navigation, enabling operators to set and modify parameters easily. The clear display provides real-time readings, making it simple to monitor operational status. Additionally, the device is equipped with programmable features that allow users to create customized temperature profiles, enhancing usability in complex applications.

The PD444-2 is built to withstand the rigors of industrial environments. Its robust construction ensures durability, even in harsh conditions. The device is designed to operate effectively under a wide range of temperatures, making it suitable for diverse applications, from food processing to chemical manufacturing. Furthermore, it features safety mechanisms, such as over-temperature protection, to prevent potential hazards associated with temperature control failures.

In terms of connectivity, the Chromalox PD444-2 supports various communication protocols, allowing for seamless integration with existing systems. This adaptability facilitates remote monitoring and control, providing operators with enhanced oversight of their processes. The ability to connect with other devices enhances the overall efficiency of operations and streamlines temperature management.

Lastly, the PD444-2 is energy-efficient, contributing to cost savings for users. Its design includes features that minimize energy consumption without compromising performance. This focus on efficiency not only reduces operational costs but also supports sustainability initiatives in industrial settings.

In summary, the Chromalox PD444-2 is a highly effective temperature control solution that combines advanced technology, user-friendly features, robust construction, connectivity options, and energy efficiency. Its versatility makes it an indispensable tool in achieving optimal temperature management across various industrial processes.