This device consists of a pH Monitor and electronics, which control external devices, based on the pH reading. Accordingly, there are two adjustments that must be made to the controller before putting into service. The calibration of the electronics which read the pH and the adjustments of the controller setpoints. After the controller is in service, it will be necessary to re-confirm and perhaps re-calibrate the pH monitor. It is important that you understand these instructions and it is critical that you follow the cautions in this manual. Most users will be controlling the addition of CO2 into their system with this instrument and there can be disastrous results if CO2, another acid or a base is added to the system in an uncontrolled fashion. It is critical that one pay special attention to the placement of the pH probe in the system. You must frequently check the condition and calibration of the pH probe. We strongly require that you build sanity into your system. Needle valves, and similar devices, should be designed to throttle-down the flow of gases into the system at a reasonable rate. If a base is being added, the maximum rate of addition should be slow enough so that there are not disastrous consequences over a short period of time. Control electronics are not human, they are not intelligent and they can not "know" when something has happened to make their input or output invalid. If the probe is not immersed in the system, it will no longer be reading the correct pH; either acid or base might be added in a completely uncontrolled fashion. If solenoid valve sticks open, the controller will not be able to shut it off. So you must be very certain that the pH probe will not become uncovered and your needle valve settings should be chosen so that if the control solenoid valve sticks open, you will have some reasonable period of time to notice that there is a problem. Installing a pH Controller on your system does not mean that you no longer have to pay attention to it. You must still monitor the system so that you can note when a problem exists and correct it in a timely fashion. If your application is particularly critical you might consider using 2 separate PINPOINT pH Controllers with the CO2 or other device wired through both controllers so that BOTH devices must agree before any external valve, etc. to become activated. Please Call American Marine for additional instructions.
|II. General Specifications
- pH Measurement Range 1.00 - 14.00
- pH Setpoint Range 4.00 - 10.00
- 3 1/2 Digit LCD Display
- Resolution 00.00 pH Unit
- 2 Independent 5 Amp 110 VAC Relay Outputs
|III. Displays and Adjustments
UPPER LEFT (pH Display)
- pH Display
- pH Monitor Adjustment & Instrument Status
- Controller Set Point Block
- Display Mode
- Controller Status LED¹s
- 110 VAC Outlets (#1 &2)
- pH Probe
The 3 1/2 digit LCD at the top left of the controller displays a numeric value corresponding either to the pH as measured through the probe, or the high or low controller setpoints.
LOWER LEFT (pH monitor Adjustment & Instrument Status)
Below the display are two adjustment screws, which are used to calibrate the electronics to properly read the pH, and two LED's which report the status of the instrument.
The adjustment screw marked "CALIB" is used to zero the pH monitoring electronics, and the "SLOPE" is used to adjust the slope. Detailed information on how to make these adjustments is given later.
The red POWER LED is illuminated when the power is turned on to the controller. The pH LED is illuminated when the display is indicating the pH as measured by the probe. The pH LED is off when the display is indicating either the high or low controller setpoints.
CENTER (Controller Setpoint Block)
There are two potentiometers that are used to adjust the controller setpoints. They control the RANGE and CENTRAL VALUE of the controller, respectively. Detailed information regarding their adjustment is given later in the ADJUSTING THE CONTROLLER section.
LOWER RIGHT (Display Mode)
The position of the slide switch determines what the LED display will show. At the center position, the display indicates the pH that the probe is measuring, and the red pH LED at the lower left of the instrument will be illuminated. Sliding the switch up or down will cause the display to show the high and low controller setpoints, respectively.
UPPER RIGHT (Controller Status LED's)
There are a total of 4 LED's here. The upper row shows the status of the 110 VAC outlets, which you will find, on the back of the controller beneath the LCD pH display. The lower LED's are on when the display mode switch is in the HIGH or LOW position.
110 VAC OUTLETS
There are two outlets, which will be energized when the pH is above (outlet #1) or below (outlet #2) the controller setpoints. A common application for the controller will be to control the addition of CO2 to the system. Since the addition of carbon dioxide lowers the pH, a NORMALLY CLOSED solenoid valve controlling the flow of CO2 would be plugged into the HIGH control outlet (Outlet #1). If a basic substance is being dispensed into the system (i.e. a lime water reactor for a reef aquarium) the device(s) controlling the flow would be attached to the LOW control outlet # 2.
NORMALLY CLOSED means that the valve will be closed when NOT energized.
A pH electrode is supplied with the controller. A plastic fluid-filled cap will protect the end of the electrode. The fluid inside the cap is a mixture of #4.0 calibration fluid + 3M KCL. This is commonly known as storage fluid. There is a suction cup attached to the electrode, which may be used to secure it, or a user-devised scheme of holding the electrode may be employed.
|IV. Calibrating the pH meter subsytem|
This is a two-point calibration instrument therefore TWO different calibrations must always be used. A pH 7.00 fluid must be used to set the CALIB and a pH 10.00 or 4.00 fluid is used to set the slope.
Before you begin the calibration, you should disconnect the pumps or valves that you are controlling, because the pH electrode will be put into solutions with a pH that is probably far outside the controller limits you have established.
Before you begin, make sure that you have the pH calibration fluids, and some room temperature tap water to rinse the electrode between calibration solutions. You must have a #7.00 calibration solution, and another solution with either be higher or lower pH (typically 4 or 10). If you are doing this for the first time, read through these instructions once to determine what is required before you begin.
The pH calibration process is now complete.
- Set the display mode switch (far right) to the central position (read). The pH LED (lower left) should be illuminated.
- Remove the plastic cap protecting the end of the electrode if you are doing this for the first time. If the electrode has already been in service you should note the condition of the electrode and clean it if required.
- Rinse the electrode with room temperature tap water taking cares to remove any accumulated salt. Rinsing the electrode prevents you from carrying over contaminating substances into the calibration solutions. Gently shake the electrode to remove any clinging drops of water.
- Immerse the tip (bottom 1 inch) of the electrode into the pH 7 calibration fluid. It is important to use the pH 7 solution first. Be sure that the tip of the probe is fully immersed in the calibration fluid for a stable and reliable result.
- Keeping the glass bulb immersed, gently swirl the ends if the electrode in the calibration fluid until the pH reading stabilizes. If the electrode is in good condition, the reading should stabilize in a few seconds. If the electrode does not easily stabilize; this may be a sign that the electrode is in need of cleaning or should soon be replaced.
- Adjust the CALIB screw to bring the displayed pH to about 7.00.
- Remove the electrode from the pH 7.0 calibration solution and rinse it with room temperature tap water. Gently shake the electrode to remove clinging drops of water.
- Immerse the end of the electrode into either the low or high calibration fluid. Usually pH 4 or pH 10 is the most common. Swirl the end of the electrode in the fluid until you obtain a stable reading, then adjust the SLOPE screw until the display shows the value of your calibration fluid (typically 4.00 or 10.00).
- Again, rinse the electrode with room temperature tap water and shake of any clinging drops.
- Re-immerse the electrode in the pH 7 calibration solution and now repeat steps 6-7-8 until the display shows 7.00 in the pH 7 fluid and 4.00 or 10.00 in the other calibration fluid that you have selected.
- Rinse the electrode and return it to service in your system. Remember that the sensitive glass bulb of the electrode must not be allowed to dry out. Use the clear plastic cap filled with storage fluid or pH 4 calibration fluid when not in use.
|V. Proper placement of the pH electrode|
When the controller is operational, it is critical that the tip (bottom 1-inch) of the electrode be immersed in the system at all times. If the water level falls below the sensing tip of the electrode, the pH probe will not read properly. If the erroneously measured pH is higher than the controller setpoint, devices connected to that outlet will remain permanently ON, irrespective of the actual pH.
Take some time to determine how much the fluid level around the probe will fluctuate. Adjust the position of the probe accordingly.
Consider the final placement of the probe and attach it securely so that it remains in position. Be sure to check the probe position occasionally. Complacency usually sets in when you feel that "Everything is running fine".
|VI. Adjusting the controller setpoints|
The PINPOINT pH Controller is capable of controlling pH within the range of pH 4 through pH 10. After the selection of the pH setpoint you will find that the controller can create a span around this setpoint, both above and below, from about +/- 0.1 pH unit to +/- 1.0 pH unit.
Two adjustment screws on the front panel determine the controller pH setpoints. The right adjustment screw determines the "center value" or the point halfway between the high and low setpoints. The left adjustment screw controls the range both above and below the selected pH setpoint. As an illustration of how the two adjustments are related, consider the following:
When the measured pH moves from the center of the acceptable pH range to above the high setpoint, the device attached to the HI outlet is activated and will remain ON until the pH is brought to the center value.
Adjusting the Controller Setpoints
Determine the "Center Value" that you wish to establish and the range around this center value you feel is acceptable (between +/- 0.1 and 1.0 pH units). Remember, if you are only adding CO2, you will have pH control in only one direction.
For example, if the acceptable range is a total of .4 pH units from a LOW of 6.8 to a HIGH of 7.2 this means that the center value is 7.0 since it is equidistant from 7.2 and 6.8 When the pH rises to 7.2 the CO2 will be activated (Outlet #1) until the pH reaches 7.0(Center Value) at which time it will be turned off.
If you would like to use a different center value, 8.0 for example, then adjust the center value screw until the HIGH setpoint is 8.2 This will make the LOW setpoint 7.8 If you would like the range to be a total of .2 pH units then adjust the range screw accordingly. If you would like to have a larger range of .8 pH units then adjust the range screw accordingly.
Remember to slide the switch between the HIGH and LOW positions to determine the center value as well as the range that you have selected. Keep in mind that the Center Value is not displayed and must be calculated as the average of the HIGH and the LOW setting.
|VII. pH Monitor Theory|
To make the above adjustment of the pH meter portion of the controller more comprehensible, this is a brief discussion of how pH electrodes work.
There is a special glass bulb that is in contact with the solution. There are also special solutions inside the body of the electrode, and a liquid junction that allows minute amounts of ions to exchange between the electrode body and the solution. This junction completes the electrical circuit. The pH Electrode acts like an extremely weak battery, whose voltage is dependent upon the amount of H+ ions present in solution. Because the electrical properties of this special glass are dependent on the H+ ion concentration of the solution in contact with the glass bulb. Because this current is very small, the signal must be handled very carefully, and the electronics in this monitor have been specially designed to handle very weak voltage, measure it accurately, translate it from a voltage to pH units, display that quantity and pass it to the controller subsystem.
The voltage output from this very weak battery happens to be 0 mV at pH 7. This is why a pH 7 solution is always used to "zero" the meter. The zero happens to be marked CALIB on the instrument case. A second standard solution, with either a pH higher or lower than 7 (usually 4 or 10) is used to adjust the slope for the response of the electronics. Since the pH scale is linear in nature you may be interested to know that this instrument will adjust 59mV per pH unit step.
PINPOINT pH Controller by American Marine inc. is warranted to be free of defects in Material and workmanship for a period of 2 years from date of sale. Positive proof of purchase is required for warranty claim.
American Marine Inc. will not be liable for any costs of removal, installation, transportation charges, or any other charges, which may result in connection with a warranty claim.
American Marine Inc. will not be liable for any damage or wear to products or livestock caused by abnormal operating conditions, water damage, abuse, misuse, unauthorized alteration or repair or if the product was not installed in accordance with the printed operating instructions.
Any defective product must be sent freight prepaid with appropriate documentation supporting the warranty claim. Replacement or repair will be at the discretion of American Marine Inc. Typical turnaround time within 48 hours. Overnight delivery available.