Lower Rack

When loading the lower rack, do not load large platters or trays in the front right corner. They may prevent detergent from circulating during the wash cycle.

The lower rack is best used for plates, saucers, and cookware. Large items such as broiler pans and racks should go along the sides. Load platters, pots and bowls along the sides, in corners, or in the back. The soiled side of items should face the center of the rack.

Safety Information

Operating Instructions

Don’t let any item extend through bottom.

Single basket (on some models)

Silverware Basket

Put flatware in the removable basket with fork and knife handles up to protect your hands. Place spoons in the basket with handles down. Mix knives, forks and spoons so they don’t nest together. Distribute evenly. Small plastic items, such as measuring spoons and lids from small containers, should go in the bottom of the silverware basket with silverware on top.

To increase the flexibility of the lower rack, the silverware basket may be split (on some models). Grasp the basket at opposite corners and slide apart. The basket sections should be placed in the lower rack by hanging them on the top hoop.

A cover can be lowered to either side to secure lightweight items from

the effects of the vigorous wash action.

Troubleshooting Tips

Customer Service

Split basket

(on some models)

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GE GHD3500 series GSD3400 series, GSD3900 series, GSD3700 series, GSD3600 series owner manual Lower Rack, Silverware Basket

GSD3600 series, GSD3700 series, GSD3900 series, GHD3500 series GSD3400 series specifications

The GE GHD3500 series, along with the GSD3400, GSD3900, GSD3700, and GSD3600 series, represents a significant advancement in the field of gas detection and monitoring systems. These series are engineered to meet the rigorous demands of various industrial applications, ensuring safety and compliance with environmental standards.

Starting with the GHD3500 series, these gas detectors are equipped with state-of-the-art sensors that enable accurate detection of a wide range of hazardous gases. Their compact design and robust construction allow for easy installation in diverse environments, from refineries to wastewater treatment plants. One of the key features of the GHD3500 series is its advanced signal processing technology, which enhances sensitivity and reduces the risk of false alarms.

The GSD3400 series, on the other hand, emphasizes versatility and user-friendliness. It offers multiple configuration options, allowing operators to tailor the system to their specific needs. The GSD3400 series features innovative self-diagnostic capabilities, ensuring that the sensors are always functioning optimally. Additionally, the robust wireless communication capabilities enable seamless integration with existing monitoring systems, facilitating real-time data sharing.

The GSD3900 series is designed for high-performance applications, focusing on increased detection range and reliability. This series employs cutting-edge multi-gas detection technology, allowing for the simultaneous measurement of several gas types. The ergonomic interface enhances user interaction, making it easier for operators to access crucial information quickly.

Meanwhile, the GSD3700 series is recognized for its durability and ruggedness, making it ideal for harsh environments where exposure to extreme temperatures and corrosive substances is common. These detectors are built with robust materials and are rated for protection against dust and moisture, ensuring long-term reliability.

Lastly, the GSD3600 series brings advanced analytics and data management functionalities to the table. With in-built cloud connectivity, operators can analyze data trends over time, helping to identify potential risks and initiate preventive measures before they escalate. The series also features customizable alert settings, enabling tailored responses to specific safety concerns.

In summary, GE's GHD3500 series and the GSD3400, GSD3900, GSD3700, and GSD3600 series collectively embody the pinnacle of gas detection technology, integrating advanced features, robust sensors, and user-centric designs to ensure safety and efficiency in various industrial settings.