V6

Manual and Automatic mode
Separate proprietary algorithms for bottled CO2 injection
and for burners with intermittent pilots. Ensures maximum
precision control while extending equipment longevity
Automatically exhausts nighttime excess CO2
Automatic overheat shutoff with warning
Automatic out of gas shutoff with warning
Interfaces with your existing intake and exhaust turbines
2 year warranty

Ultimate CO2 Manager V6

Continuously monitors and displays the ambient CO2 concentration to 5000 PPM. (parts per million)
Controls the grow room daytime CO2 concentration by automatically activating burners or emitters as required. User selects
enrichment level and hysteresis value. The unit is shipped at 1400 PPM with 50 PPM hysteresis. Will activate your enrichment
system whenever the CO2 concentration falls below 1350 PPM (1400-50) and shut off whenever it reaches 1400 PPM.
The CO2 Manager V6 is the first controller ever to offer two separate proprietary algorithms to control the daytime CO2
concentration in the grow room automatically. One algorithm for bottled carbon dioxide injection or burners with continuous pilots
and another for gas burners with intermittent electronic pilots.
The algorithm for bottled carbon dioxide will calculate the amount of CO2 required to maintain your target every two minutes.
Incredible precision control often to 10 PPM of target by keeping to short injection periods. Also helps to prevent freezing of gas
emitters.
The algorithm for burners with intermittent electronic pilots will calculate the amount of CO2 required to achieve target every 10
minutes and fire burners accordingly. The hysteresis will be what the grow room consumes in 10 minutes or so. By keeping to 5
injection periods per hour the burner’s gas controller and electronic pilot should last for several years.
Controls the grow room nighttime concentration by automatically activating an exhaust fan/turbine as required. User selects the
nighttime maximum level and hysteresis value. The nighttime level is the ON value. Hysteresis value is the difference between the
ON level and the OFF level. The unit is shipped at 600 PPM and 20 PPM hysteresis. Will activate your exhaust fan whenever the
nighttime CO2 concentration rises above 600 PPM and shut off when it falls below 580 PPM.
High temperature safety shut off with visual warning if grow room temperature exceeds 105F/40.5C. Automatically resumes when
temperature falls below 95F/35C.
Automatic shut off when out of gas to preserve equipment. Warns user by flashing all LEDs. Push enter key to resume.
Supports two burners or regulator/emitters.
Supports two 12” turbines for intake and exhaust.
A light sensor automatically selects, within a few minutes, day or night operation mode. Always in sync with your HID lighting.
The trigger cord (small power cord) connects into an optional programmable timer, cycle timer or coolstat to activate the intake and
exhaust fans while interrupting CO2 enrichment.
Certified CSA, CEC and NEC compliant for your safety.

How to change the day target concentration level

To change/view the daytime PPM target level push and release the Select key until the red led next to Day CO2

enrichment level is

lit. The display indicates the current level. Select a new level using the UP/DOWN keys. Push

the enter key when done to record the

change and resume operation. The controller will now activate your

burners/emitters according to your new set point.

How to change the daytime hysteresis value

How to select the

Auto

mode

To change/view the daytime hysteresis value push and release the Select key until the red led next to Day

hysteresis is lit. The

display indicates the current value or Auto. Select a new level between 10 and 400ppm or

Auto mode using the UP/DOWN keys.

Push the enter key when done to record the change and resume operation.

How to change the nighttime CO2 evacuation set point

To change/view the nighttime evacuation level push and release the Select key until the red led next to Night CO2

evacuation level

is lit. The display indicates the current set point. Select a new level using the UP/DOWN keys.

When done, push the enter key to

record the change and resume operation. The controller will now activate your

nighttime exhaust fan whenever the concentration

exceeds your new set point.

How to change the nighttime hysteresis value

To change/view the nighttime hysteresis value push and release the Select key until the red led next to Night

hysteresis is lit. The

display indicates the current value. Select a new value between 0 and 400ppm using the

UP/DOWN keys. Push the enter key when

done to record the change and resume operation.

How to record elevation

The unit comes calibrated for operation at sea level. If you grow at higher altitudes record your altitude from 100

to 9,900 feet to

automatically compensate for the higher elevation.

To view/change the elevation push and

release the Select key until the red led

next to Elevation in feet is lit. The display indicates the current elevation in

feet. Select a new altitude using the UP/DOWN keys.

Push the enter key when done to record the change and

resume operation.

How to Calibrate

The unit is factory calibrated and should require no calibration for several years. You can calibrate the unit using

fresh air as

reference. Bring the sensor outdoors, away from direct sunlight and only when the temperature is

around 77oF/25oC. Let the unit

operate for at least 10 minutes and until the reading stabilizes. If the reading is

between 350 and 450 PPM the unit does not require

a calibration adjustment. If the reading is under or over push

and release the Select key until the led next to Calibration is lit. Use

the UP/DOWN keys to adjust reading to 400.

Do not exhale on the unit during calibration adjustments. Push and hold the enter key

for 5 seconds or until the

led goes off and unit resumes operation. Let the unit operate another 10 minutes to ensure display is

stable at

400.

How to select between bottle and burner mode

Push and hold the up and down keys until CO2 or burn appears in the display. Release the up and down keys.

With the up or down

key select the mode corresponding to your enrichment generator. Select CO2 for bottled

CO2 and burners with continuous pilots.

Select burn for burners with intermittent electronic pilots. Push the enter

key to record your selection and resume operation.

How to reset the Auto mode

Push and hold the up and down keys until CO2 or burn appears. Push the enter key. The controller will reset and

restart operation.

XPRESS Service

Your Ultimate CO2 Manager should deliver many years of reliable operation. Should your unit require servicing

please return it to

the point of sale or call Ultimate Controllers to obtain an authorization number and shipping

instructions. Repairs will usually be

returned within 2 business days of reception by courier service or Canada

Post.

How organisms acquire energy

and the role of CO2

All organisms need energy to live. Photosynthetic organisms, such as plants, can capture energy in the form of

light and use it to

convert CO2 into carbon compounds that can serve as a source of food and as a form of stored

energy. These organisms are

known as autotrophs or self-feeders. Autotrophs must break down carbon

compounds to release the energy they contain to sustain

their own metabolisms. This break down process is

called respiration and it occurs at all times in all living cells of all organisms. The

process of photosynthesis is the

opposite of respiration, taking energy from light and using it to convert CO2 and H2O into organic

carbon

compounds, such as sugars, while respiration breaks down these organic carbon compounds back to CO2 and

H2O,

releasing energy in the process. These competing processes are illustrated below:

Features

Light energy is taken in by photosynthesis with an increase in biomass as CO2 is fixed or absorbed. Energy is lost

as heat from

respiration and biomass is reduced as CO2 is released. As long as CO2 uptake by photosynthesis is

greater than CO2 loss by

respiration, the plant will continue to grow. This is the concept of the Net Primary

Production. Plants do photosynthesis only when

light is available. Plants do respiration all the time, light or dark. A

plant must therefore produce sufficient biomass to sustain life and

provide for growth during light periods.

It gets a little more complicated when you consider the concept of biosynthesis. The simple sugars that plants

make during

photosynthesis are used as raw materials in the enzyme reactions that produce compounds like

complex carbohydrates (starches

and cellulose), proteins, fats, lipids and nucleic acids. All these enzyme

reactions require energy in the form of the ATP that is

produced by the plant’s mitochondria in aerobic respiration.

All the chemical compounds that are produced by biosynthesis and are

retained by the plant make up the

biomass of the plant. Only about 10% is retained as biomass, 90% is lost through respiration. It is

therefore vital to

provide champion plants with conditions that promote efficient photosynthesis and respiration rates. There are

several factors to consider. Photosynthesis requires light, water and CO2. Increasing the level of CO2 available to

the plant will

dramatically increase biomass providing there is enough light and water. Temperature and humidity

also affect photosynthesis. Hint:

Peak photosynthesis activity occurs around 25oC/77oF. If too hot, plants guard

cells deflate and close off the

omas

(pores) to

prevent excessive water loss through transpiration. Nighttime

respiration can be inhibited by high levels of CO2 which also cause the

guard cells to deflate and close off the

omas

. It is important to keep CO2 levels under 1000 PPM and preferably around 600 PPM

to promote a healthy

respiration rate by keeping the

omas

open to promote unrestricted gas exchanges. It is common to find levels

over 1500 PPM at night in sealed

grow rooms

. Remember that plants, like humans, produce CO2 as a byproduct

of respiration.

Plants whose nighttime respiration is inhibited will be droopy and limp at daybreak. It is therefore

important to vent your

grow room

whenever nighttime CO2 levels exceed 600 PPM

Our 10th anniversary edition of the CO2 Manager. It has all the features you expect from a professional instrument and much more.
The unit was designed for total CO2 control, day and night. We even developed our own algorithms for both bottled CO2 enrichment
and burners with electronic intermittent pilots in order to achieve the highest possible accuracy and extend the life of your enrichment
equipment.
Plants produce CO2 as a byproduct of respiration. During the day the photosynthesis process absorbs all that the plant expels and
much more but at night, when photosynthesis stops, the ambient CO2 level can rise dramatically especially in sealed environments with
dense foliage. Levels of 1500 ppm are not uncommon. Plants will be droopy and limp at daybreak but will quickly start to look healthy
when the lights come on. What is actually happening is the plant is being chocked or deprived of the ability to breath or exchange gases
through the stomas because high levels of CO2 will close the stomas/pores. When the pores are closed the plant does not grow.
Evacuating the excess nighttime CO2 will keep pores open and promote a healthy growth. The CO2 Manager V6 is the only
monitor/controller to offer this feature. Your harvests and equipment will thank you over again for your investment.