When set for load control, the TriStar powers loads from the battery, and protects the battery from over-discharge with a current compensated LVD (low voltage load disconnect). Lighting control is a special function of Load control where the load is switched On and Off based on the solar array voltage.

• Starts large loads including motors and pumps with no damage to controller
• Allows inrush current to 300 amps
• Electronic short-circuit and overload protection with automatic reconnect
• LVD is current compensated and has a delay to avoid false disconnects

Diversion Charge Control

In diversion mode, the TriStar will manage battery charging by diverting energy from the battery to a dedicated diversion load. The energy source is typically wind or hydro.

• May be used for solar, wind or hydroelectric
• To protect against battery overcharge, excess energy is diverted from primary battery to a secondary battery or alternate DC resistive load
• PWM reduces power into diversion load during overcurrent conditions

Adjustability

Eight DIP switches permit the following parameters to be adjusted at the installation site:

In addition to the DIP switches, the TriStar provides for additional adjustments using a PC program. An RS-232 connection between the TriStar and a personal computer will enable extensive adjustments using PC software from Morningstar’s website.

General

The TriStar is suitable for a wide range of solar applications including homes, telecom and industrial power needs.

TriStar controllers are configured for negative ground systems. There are no parts in the controller’s negative leg. The enclosure can be grounded using the ground terminal in the wiring compartment.

The TriStar is protected from faults electronically with automatic recovery. There are no fuses or mechanical parts inside the TriStar to reset or change. Solar overloads up to 130% of rated current will be tapered down instead of disconnecting the solar. Over-temperature conditions will also taper the solar input to lower levels to avoid a disconnect.

The NEC requires overcurrent protection externally in the system. There are no system disconnects inside the TriStar enclosure.

Any number of TriStars can be connected in parallel to increase solar charging current. TriStars can be paralleled ONLY in the battery charging mode. DO NOT parallel TriStars in the load mode, as this can damage the controller or load.

The TriStar enclosure is rated for indoor use. The controller is protected by conformal coated circuit boards, stainless steel hardware, anodized aluminum, and a powder coated enclosure, but it is not rated for corrosive environments or water entry.

The construction of the TriStar is 100% solid state.

Battery charging is by a series PWM constant current charging, with bulk charging, PWM absorption, float and equalization stages.

The TriStar will accurately measure time over long intervals to manage events such as automatic equalizations or battery service notification.

Day and night conditions are detected by the TriStar, and no blocking diodes are used in the power path.

LED’s, a pushbutton, and optional digital meters provide both status information and various manual operations.

The date of manufacture can be found on the two bar code labels. One label is on the back of the TriStar, and the other is in the wiring compartment. The year and week of manufacture are the first four digits of the serial number:

Safety and Regulatory Information

The TriStar controller is intended for installation by a qualified technician according to electrical rules of each country in which the product will be installed.

TriStar controllers comply with the following EMC standards:

• Immunity: EN61000-6-2:1999
• Emissions: EN55022:1994 with A1 and A3 Class B1
• Safety: EN60335-1 and EN60335-2-29 (battery chargers)

A means shall be provided to ensure all pole disconnection from the power supply. This disconnection shall be incorporated in the fixed wiring. Using the TriStar grounding terminal (in the wiring compartment), a permanent and reliable means for grounding shall be provided. The clamping of the earthing shall be secured against accidental loosening. The entry openings to the TriStar wiring compartment shall be protected with conduit or with a bushing.

This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:

1. This device may not cause harmful interference
2. this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by Morningstar for compliance could void the user’s authority to operate the equipment.

PWM Battery Charging

PWM (Pulse Width Modulation) battery charging is the most efficient and effective method for recharging a battery in a solar system. Refer to "Why PWM?" on Morningstar’s website for more information.

Selecting the best method for charging your battery together with a good maintenance program will ensure a healthy battery and long service life. Although the TriStar’s battery charging is fully automatic, the following information is important to know for getting the best performance from your TriStar controller and battery.

1. Bulk Charging: In this stage, the battery will accept all the current provided by the solar system. The LED’s will display an indication of the battery charge state as the battery is being recharged.
2. PWM Absorption: When the battery reaches the regulation voltage, the PWM begins to hold the voltage constant. This is to avoid over-heating and over-gassing the battery. The current will taper down to safe levels as the battery becomes more fully charged. The green LED will blink once per second.
3. Equalization: Many batteries benefit from a periodic boost charge to stir the electrolyte, level the cell voltages, and complete the chemical reactions. The green LED will blink rapidly 2-3 times per second.
4. Float: When the battery is fully recharged, the charging voltage is reduced to prevent further heating or gassing of the battery. The green LED will blink slowly once every 2 seconds.

Battery Charging Notes

The TriStar manages many different charging conditions and system configu rations. Some useful functions to know follow below.

• Solar Overload: Enhanced radiation or "edge of cloud effect" conditions can generate more current than the controller’s rating. The TriStar will reduce this overload up to 130&37; of rated current by regulating the current to safe levels. If the current from the solar array exceeds 130&37;, the controller will interrupt charging.
• Battery Voltage Sense: Connecting a pair of voltage sense wires from the controller to the battery is recommended. This allows a precise battery voltage input to the controller and more accurate battery charging.
• Temperature Compensation: All charging setpoints are based on 25°C (77°F). If the battery temperature varies by 5°C, the charging will change by 0.15 volts for a 12 volt battery. This is a substantial change in the charging of the battery, and a remote temperature sensor is recommended to adjust charging to the actual battery temperature.
• Day-Night Detection: The TriStar will automatically detect day and night conditions. Any functions that require measuring time or starting at dawn, for example, will be automatic.
• PWM Noise: In some installations, the PWM charging may cause audible noise in certain equipment. If this occurs, the PWM can be changed to "On- Off" solar charging to reduce the noise. This requires DIP switch number 8 to be turned On. However, it is strongly recommended to try to remedy the noise problem with grounding or filtering first, because the benefits from PWM battery charging are significant.
• Battery Types: The TriStar’s standard battery charging programs are suitable for a wide range of lead-acid battery types.

Warranty: Five year warranty period. Contact Morningstar for complete terms.