Emerson 3051S manual Maxnotify, Write access, Hwsel bit Swsel bit, Read/Write, To blocks

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Reference Manual

00809-0200-4801, Rev BA April 2007

Rosemount 3051S

SOFT W LOCK and HARD W LOCK

Inputs to the security and write lock functions include the hardware security switch, the hardware and software write lock bits of the FEATURE_SEL parameter, the WRITE_LOCK parameter, and the DEFINE_WRITE_LOCK parameter.

The WRITE_LOCK parameter prevents modification of parameters within the device except to clear the WRITE_LOCK parameter. During this time, the block will function normally updating inputs and outputs and executing algorithms. When the WRITE_LOCK condition is cleared, a WRITE_ALM alert is generated with a priority that corresponds to the WRITE_PRI parameter.

The FEATURE_SEL parameter enables the user to select a hardware or software write lock or no write lock capability. To enable the hardware security function, enable the HW_SEL bit in the FEATURE_SEL parameter. When this bit has been enabled the WRITE_LOCK parameter becomes read only and will reflect the state of the hardware switch. In order to enable the software write lock, the SW_SEL bit must be set in the FEATURE_SEL parameter. Once this bit is set, the WRITE_LOCK parameter may be set to “Locked” or “Not Locked.” Once the WRITE_LOCK parameter is set to “Locked” by either the software or the hardware lock, all user requested writes as determined by the DEFINE_WRITE_LOCK parameter shall be rejected.

The DEFINE_WRITE_LOCK parameter allows the user to configure whether the write lock functions (both software and hardware) will control writing to all blocks, or only to the resource and transducer blocks. Internally updated data such as process variables and diagnostics will not be restricted by the security switch.

The following table displays all possible configurations of the WRITE_LOCK parameter.

FEATURE_SEL

FEATURE_SEL

 

 

 

 

WRITE_LOCK

 

Write access

HW_SEL bit

SW_SEL bit

SECURITY SWITCH

WRITE_LOCK

Read/Write

DEFINE_WRITE_LOCK

to blocks

 

 

 

 

 

 

 

 

 

0 (off)

0

(off)

NA

1

(unlocked)

Read only

NA

All

 

 

 

 

 

 

 

 

 

0 (off)

1

(on)

NA

1

(unlocked)

Read/Write

NA

All

0 (off)

1

(on)

NA

2

(locked)

Read/Write

Physical

Function

 

 

 

 

 

 

 

 

 

Blocks only

 

 

 

 

 

 

 

 

 

0 (off)

1

(on)

NA

2

(locked)

Read/Write

Everything

None

1 (on)

0

(off)(1)

0

(unlocked)

1

(unlocked)

Read only

NA

All

1 (on)

0

(off)

1

(locked)

2

(locked)

Read only

Physical

Function

 

 

 

 

 

 

 

 

 

Blocks only

1 (on)

0

(off)

1

(locked)

2

(locked)

Read only

Everything

None

(1)The hardware and software write lock select bits are mutually exclusive and the hardware select has the highest priority. When the HW_SEL bit if set to 1 (on), the SW_SEL bit is automatically set to 0 (off) and is read only.

MAX_NOTIFY

The MAX_NOTIFY parameter value is the maximum number of alert reports that the resource can have sent without getting a confirmation, corresponding to the amount of buffer space available for alert messages. The number can be set lower, to control alert flooding, by adjusting the LIM_NOTIFY parameter value. If LIM_NOTIFY is set to zero, then no alerts are reported.

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Contents Reference Manual Overview Safety MessagesNetwork Parameter Value Device Capabilities Link Active SchedulerModes General Block InformationAuto MANFeaturessel FeaturesBlock Instantiation Simulation Resource BlockMaxnotify Write accessHwsel bit Swsel bit Read/WritePlantWeb Alarms Maintenabled MaintalarmsAdviseenabled MaintmaskAnalog Input AI Function Block Configure the AI blockChannel Number Channel Description ChannelLtype Pressure Channel Temperature Channel Flow Channel Parameter Configured Values Configuration ExamplesSituation #3 Diagram XDSCALE100 OUT= Low Cutoff FilteringAlarm Priority Process AlarmsStatus Options Hipri Hihipri Lopri LolopriAlarmtype Advanced FeaturesMultiple Analog Input MAI Function Block OutdNumber Name and Description Block Error ConditionsLCD Transducer Block Custom Meter ConfigurationBLKTYPE#1 DisplayparamselPARAMINDEX#1 CUSTOMTAG#1Custom Display bar graphCUSTOMUNITS#1 ADB Parameters Plugged Impulse Line Detection PIL Advanced Diagnostics Transducer Block ADBPlineon Configuration Plugged Impulse Line DetectionPlugged Impulse Line Advanced Settings Rosemount 3051S Statistical Process Monitoring SPM SPM Configuration Mass Flow Engineering Assistant Software Installation and SetupDevice View Open EA Wizard EA Wizard View 10. Download Mass Flow Configuration File
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3051S specifications

The Emerson 3051S is a state-of-the-art pressure transmitter that excels in various industrial applications. Its design is rooted in cutting-edge technology, ensuring accurate and reliable pressure measurements. With a focus on performance and durability, the 3051S stands as a trusted choice for engineers and process professionals worldwide.

One of the standout features of the Emerson 3051S is its advanced sensor technology. The device utilizes a high-performance sensor that offers exceptional accuracy, with a measured performance of up to ±0.075% of the span. This precision is essential for processes where minute changes in pressure can significantly impact operations. Coupled with the sensor's stability and repeatability, the 3051S provides consistent readings even in fluctuating conditions.

The device also incorporates Emerson's proprietary Smart Pressure technology, which enables predictive diagnostics. This feature allows users to anticipate potential issues before they escalate, reducing downtime and maintenance costs. The 3051S is equipped with advanced communication capabilities, supporting protocols such as HART, FOUNDATION Fieldbus, and Profibus PA. This versatility ensures seamless integration into existing plant automation systems, facilitating real-time data monitoring and management.

In terms of construction, the Emerson 3051S is built to withstand harsh industrial environments. It features a robust stainless-steel housing that protects the internal components from corrosive substances, high temperatures, and extreme pressures. The device is also available with various membrane materials, making it suitable for a wide range of media, including corrosive and viscous fluids.

Moreover, the 3051S is designed with user-friendliness in mind. It includes an intuitive interface and is fully configurable, allowing for easy calibration and setup. The ability to use Emerson's AMS Device Manager software further enhances the user experience, enabling detailed analysis, configuration, and diagnostics from a centralized platform.

Overall, the Emerson 3051S combines superior technology with practical design, making it an ideal solution for industries such as oil and gas, chemical processing, and water treatment. Its precise measurements, advanced diagnostics, and durable construction position it as a benchmark in the field of pressure transmitters, delivering reliability and efficiency for critical applications.