# CO2 Sensor - Quick Reference SSO

**Device Type:** Analog Input - Gas Sensor  
**Signal:** 0-10VDC / 4-20mA output  
**Power:** 24VAC/VDC (powered transmitter)  
**Version:** 1.0 | **Date:** Dec 2025

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## DEVICE OVERVIEW

**Common Models:**  
- Veris CWLSHTA, Telaire T8000 Series, Johnson Controls GMP/GMW, Siemens QPA2000, BAPI BA/CO2

**Used For:**  
Demand control ventilation (DCV), indoor air quality monitoring, occupancy detection, energy savings

**Specifications:**
- **Range:** 0-2000 PPM typical (0-5000 PPM for high-occupancy)
- **Accuracy:** ±50 PPM typical
- **Technology:** Non-dispersive infrared (NDIR) - most common
- **Output:** 0-10VDC or 4-20mA proportional to CO2 level
- **Power:** 24VAC or 24VDC, 15-50mA consumption
- **Wire Type:** 18AWG minimum, shielded recommended for long runs
- **Wiring:** 3-wire (power, common, signal output)

**Environment:** 32-122°F, 0-95% RH non-condensing (indoor only)

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## SAFETY - PPE REQUIRED

- ☑ Safety glasses (ANSI Z87.1)
- ☑ Work gloves
- ☑ Hard hat (if overhead work)
- ☑ Ladder safety equipment (if >6 feet)

### HAZARDS
- ⚠ **LADDER WORK** - Most common hazard (sensors typically mounted high)
- ⚠ **ELECTRICAL** - 24VAC/VDC low voltage (low shock hazard, but always exercise caution)
- ⚠ **CONFINED SPACES** - Some mechanical room installations

### LOCKOUT/TAGOUT
- [ ] **NOT required** - low voltage device
- [ ] Notify building occupants if working in occupied space

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## INSTALLATION CHECKLIST

### TOOLS NEEDED
- Drill + bits
- Wire strippers (18AWG)
- Screwdrivers
- Multimeter (DMM)
- Level
- Tape measure
- Label maker
- Ladder (appropriate height)

### PRE-INSTALL
- [ ] Location per blueprints (typically 4-6 feet above floor)
- [ ] Avoid locations near:
   * Doors or windows (outside air infiltration)
   * Supply diffusers (dilutes reading)
   * Kitchen/break room areas (cooking affects reading)
   * Smoking areas or loading docks
- [ ] Verify sensor range matches application (0-2000 vs 0-5000 PPM)
- [ ] Confirm sensor type matches controller input (0-10V vs 4-20mA)

### INSTALL STEPS
1. **Mount sensor:**
   - Height: 4-6 feet above floor (breathing zone)
   - Representative location (not corner or dead air space)
   - Use level to ensure horizontal
   - Wall mount or electrical box

2. **Route and terminate wiring:**
   - **3-Wire Standard:**
     * Red: +24VAC/VDC power
     * Black: Common
     * White/Green: Signal output (0-10V or 4-20mA)
   - Tighten terminals: 7-9 in-lbs
   - Support wire, leave 12" service loop

3. **Label wiring:**
   - Example: "RM-201-CO2" or "AHU-1-RA-CO2"
   - Label both ends

### POST-INSTALL
- [ ] Sensor mounted securely and level
- [ ] Height 4-6 feet above floor
- [ ] Location representative of space
- [ ] All wires terminated tight
- [ ] Labels applied both ends
- [ ] Work area cleaned
- [ ] Photos taken

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## EXPECTED READINGS

### PRE-POWER (Power OFF)
- **Continuity:** Each wire <5 ohms end-to-end
- **Isolation:** >10K ohms to ground

### POWER-UP
- **Supply Voltage:** 24VAC/VDC ±10% (21.6-26.4V)
- **Power Consumption:** 15-50mA typical
- **Warm-up Time:** 5-30 minutes (NDIR sensors need stabilization)

### NORMAL READINGS
| CO2 Level | Condition           | 0-10V Output | 4-20mA Output |
| --------- | ------------------- | ------------ | ------------- |
| 400 PPM   | Outdoor air         | 2.0V         | 7.2mA         |
| 600 PPM   | Low occupancy       | 3.0V         | 9.6mA         |
| 800 PPM   | Normal occupancy    | 4.0V         | 12.0mA        |
| 1000 PPM  | High occupancy      | 5.0V         | 14.4mA        |
| 1200 PPM  | Very high occupancy | 6.0V         | 16.8mA        |

**Typical Indoor Range:** 400-1200 PPM  
**Outdoor Fresh Air:** ~400-450 PPM  
**ASHRAE Max Recommended:** 1000 PPM (for comfort)  
**Code Max (some jurisdictions):** 1200 PPM

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## PROOF OUT TESTS

### TEST 1: Warm-Up Period
- **Do:** Power sensor and wait 5-30 minutes
- **Expect:** Reading stabilizes (initial reading may be high or low)
- **Pass If:** Reading stable within 30 minutes

### TEST 2: Fresh Air Test
- **Do:** Hold sensor near outside air intake or open window
- **Expect:** Reading drops to ~400-500 PPM (outdoor air level)
- **Pass If:** Reading drops and stabilizes at outdoor level

### TEST 3: Breath Test (Occupancy Simulation)
- **Do:** Exhale breath directly at sensor from 6-12 inches away for 10 seconds
- **Expect:** Reading increases 200-400 PPM within 30-60 seconds
- **Pass If:** Reading increases then gradually returns to baseline

### TEST 4: Range Test
- **Do:** Compare occupied space reading to unoccupied/ventilated reading
- **Expect:** 
  * Unoccupied with ventilation: 400-600 PPM
  * Occupied space: 600-1200 PPM depending on density
- **Pass If:** Readings make sense for conditions

### TEST 5: Controller Integration
- [ ] Sensor appears in controller AI list
- [ ] Reading displays in PPM
- [ ] Graphics show live data
- [ ] Controller uses reading for DCV control
- [ ] No faults or errors

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## TROUBLESHOOTING

### NO READING / SENSOR FAULT
1. Verify supply voltage at sensor: 24VAC/VDC ±10%
2. Wait 30 minutes for warm-up period
3. Check all wiring connections tight
4. Test continuity end-to-end: <5 ohms
5. Measure output signal: Should be 2-10V or 4-20mA (not 0V or 0mA)
6. **If 0V or 0mA:** Sensor failed - replace
7. **If voltage present but no reading:** Check controller input config

### READING STUCK / NOT CHANGING
1. Verify sensor has power (LED indicator if equipped)
2. Wait for warm-up period (30 min)
3. Perform breath test - should increase reading
4. Check sensor lens/opening not obstructed or dirty
5. **If still stuck:** Replace sensor (NDIR element failed)

### READING TOO HIGH (Always >1000 PPM)
1. Check sensor location:
   - Near kitchen or break room?
   - In dead air space with poor circulation?
   - Too close to occupants?
2. Verify outdoor air ventilation operating correctly
3. Compare to portable CO2 meter (calibrated reference)
4. **If consistently high by same offset:** Calibrate sensor
5. **If true high reading:** Increase ventilation rate

### READING TOO LOW (Always <400 PPM)
1. Check sensor location - too close to OA intake or supply diffuser?
2. Verify sensor not in high-velocity airstream
3. Compare to portable CO2 meter
4. **If sensor reads low:** Calibrate or replace
5. **Note:** Reading below 400 PPM indoors is usually sensor error

### ERRATIC / FLUCTUATING READINGS
1. Check for air currents affecting sensor (supply diffuser too close)
2. Verify sensor mounted securely (not vibrating)
3. Check wiring for EMI/RFI interference
4. Look for moisture in sensor or connections
5. **If persists:** Replace sensor

### SLOW RESPONSE
1. Normal: CO2 sensors respond slower than temperature (1-2 min typical)
2. Check sensor sampling rate (some have adjustable averaging)
3. Verify sensor not obstructed
4. **If >5 minutes to respond:** Sensor may be failing - replace

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## ESCALATION - COMPLETE BEFORE CALLING

### PRE-ESCALATION CHECKLIST
- [ ] Verified supply voltage at sensor (24V ±10%)
- [ ] Waited 30+ minutes for warm-up period
- [ ] Verified all wiring connections
- [ ] Performed breath test (reading should increase)
- [ ] Compared to portable CO2 meter (if available)
- [ ] Checked sensor location (away from influences)
- [ ] Documented readings over 30+ minute period
- [ ] Taken photos of installation and location

### PROVIDE THIS INFO
- **Sensor:** [Mfg / Model / Range / Location]
- **Supply Voltage:** _____ VAC/VDC
- **Output Signal:** 0-10V or 4-20mA
- **Current Reading:** _____ PPM
- **Reference Reading:** _____ PPM (if available)
- **Space Occupancy:** Occupied / Unoccupied / # people
- **Ventilation Status:** OA damper position ____ %
- **Symptoms:** [Stuck, erratic, high, low, no reading]
- **Response to Breath Test:** [Increased / No change]
- **Steps Taken:** [Troubleshooting completed]

### CONTACTS
- **Field Specialist:** [Phone]
- **Programmer:** [Phone] (if DCV sequence issue)
- **Project Manager:** [Phone]
- **Dispatch:** [Phone]

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## CALIBRATION

**When Needed:** 
- Annual calibration recommended (NDIR sensors drift over time)
- After sensor replacement
- If reading consistently off by >100 PPM

**Methods:**

**OPTION A: Fresh Air Calibration (Simple)**
1. Expose sensor to outdoor air for 20+ minutes
2. Outdoor air should read 400-450 PPM
3. Adjust sensor calibration to 400 PPM (if adjustable)
4. **Note:** Only accurate if outdoor air is actually ~400 PPM

**OPTION B: Zero Gas Calibration (Accurate)**
1. Requires calibration gas (400 PPM CO2 in nitrogen)
2. Apply calibration gas to sensor per manufacturer procedure
3. Adjust sensor to match calibration gas concentration
4. **Preferred method** - most accurate

**OPTION C: Controller Offset (Temporary)**
1. If sensor consistently off by fixed amount (e.g., always reads 100 PPM high)
2. Apply offset in controller configuration
3. **Not a permanent fix** - sensor should be recalibrated or replaced

**Acceptable Tolerance:** ±50 PPM

**Document:** Tech name, date, calibration method, before/after readings

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## COMMON ISSUES & TIPS

✓ **Mount height:** 4-6 feet (breathing zone) - CO2 heavier than air but well-mixed indoors  
✓ **Warm-up time:** Always allow 30 min minimum after power-up before commissioning  
✓ **Location critical:** Representative location essential - avoid OA intakes and supply diffusers  
✓ **NDIR technology:** Most accurate but requires annual calibration  
✓ **Range selection:** 0-2000 PPM for most spaces, 0-5000 PPM for high-occupancy (auditoriums, gyms)  
✓ **DCV savings:** Typically 10-30% energy savings vs fixed ventilation rate  
✓ **ASHRAE 62.1:** Requires CO2 sensors for DCV in densely occupied spaces  
✓ **Breath test:** Quick field verification - exhaled breath ~40,000 PPM CO2  
✓ **Outdoor air:** ~400-450 PPM baseline (slowly increasing globally ~2 PPM/year)  
✓ **False high readings:** Check for nearby combustion sources, kitchens, smoking  
✓ **Multi-zone systems:** One sensor per zone typical, or duct-mounted in return air

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**Document ID:** SSO-CO2-001  
**Revision:** 1.0  
**Next Review:** Dec 2026