-- Title: LIEB_INT.MIB -- Version: v1.3 -- Date: 03/18/97 02:00pm -- -- Copyright @ 1994-96 Liebert Corporation. All rights reserved worldwide. -- -- This MIB defines objects for the Liebert SiteNet Integrator SNMP Agent. -- LIEBERT-SITENET-INTEGRATOR-MIB DEFINITIONS ::= BEGIN IMPORTS TruthValue FROM RFC1253-MIB DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 Counter, enterprises FROM RFC1155-SMI; emerson OBJECT IDENTIFIER ::= { enterprises 476 } liebertCorp OBJECT IDENTIFIER ::= { emerson 1 } liebertUps OBJECT IDENTIFIER ::= { liebertCorp 1 } liebertEnvironment OBJECT IDENTIFIER ::= { liebertCorp 2 } leExtensions OBJECT IDENTIFIER ::= { liebertEnvironment 1 } leExperimental OBJECT IDENTIFIER ::= { liebertEnvironment 2 } lePrivate OBJECT IDENTIFIER ::= { liebertEnvironment 3 } -- created from envMIB (94020700000Z) -- -- Little Glass House/Datapad Extension -- leSiteNet01 OBJECT IDENTIFIER ::= { leExtensions 1 } envMIB OBJECT IDENTIFIER ::= { leSiteNet01 1 } envIdent OBJECT IDENTIFIER ::= { envMIB 1 } envIdentManufacturer OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Environmental Control Unit manufacturer." ::= { envIdent 1 } envIdentModel OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The Environmental Control Unit Model designation." ::= { envIdent 2 } envIdentSoftwareVersion OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The Environmental SNMP Agent software version." ::= { envIdent 3 } envIdentSpecific OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "A reference to MIB definitions specific to the particular Environmental Unit being managed. This object is used to locate the product-specific MIB for this device. If this information is not present, its value should be the OBJECT IDENTIFIER { 0 0 }, which is a syntactically valid object identifier, and any conformant implementation of ASN.1 and BER must be able to generate and recognize this value." ::= { envIdent 4 } envDigitalInputs OBJECT IDENTIFIER ::= { envMIB 2 } envDigInput1 OBJECT IDENTIFIER ::= { envDigitalInputs 1 } envDigInput1State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 1. When the envDigInput1Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput1Polarity is set to activeHigh(1) and the input on Digital Input Number 1 is asserted, this variable returns true(1). When the envDigInput1Polarity is set to activeLow(2) and the input on Digital Input 1 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput1 1 } envDigInput1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 1. The text string is stored in non-volatile memory." ::= { envDigInput1 2 } envDigInput1Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 1. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 1 is being deasserted and return true(1) if Digital Input Number 1 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 1 is being asserted and return true(1) if Digital Input Number 1 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput1 3 } envDigInput1TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 1. When envDigInput1TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput1TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput1 4 } envDigInput2 OBJECT IDENTIFIER ::= { envDigitalInputs 2 } envDigInput2State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 2. When the envDigInput2Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput2Polarity is set to activeHigh(1) and the input on Digital Input Number 2 is asserted, this variable returns true(1). When the envDigInput2Polarity is set to activeLow(2) and the input on Digital Input 2 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput2 1 } envDigInput2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 2. The text string is stored in non-volatile memory." ::= { envDigInput2 2 } envDigInput2Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 2. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 2 is being deasserted and return true(1) if Digital Input Number 2 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 2 is being asserted and return true(1) if Digital Input Number 2 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput2 3 } envDigInput2TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 2. When envDigInput2TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput2TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput2 4 } envDigInput3 OBJECT IDENTIFIER ::= { envDigitalInputs 3 } envDigInput3State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 3. When the envDigInput3Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput3Polarity is set to activeHigh(1) and the input on Digital Input Number 3 is asserted, this variable returns true(1). When the envDigInput3Polarity is set to activeLow(2) and the input on Digital Input 3 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput3 1 } envDigInput3Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 3. The text string is stored in non-volatile memory." ::= { envDigInput3 2 } envDigInput3Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 3. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 3 is being deasserted and return true(1) if Digital Input Number 3 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 3 is being asserted and return true(1) if Digital Input Number 3 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput3 3 } envDigInput3TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 3. When envDigInput3TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput3TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput3 4 } envDigInput4 OBJECT IDENTIFIER ::= { envDigitalInputs 4 } envDigInput4State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 4. When the envDigInput4Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput4Polarity is set to activeHigh(1) and the input on Digital Input Number 4 is asserted, this variable returns true(1). When the envDigInput4Polarity is set to activeLow(2) and the input on Digital Input 4 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput4 1 } envDigInput4Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 4. The text string is stored in non-volatile memory." ::= { envDigInput4 2 } envDigInput4Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 4. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 4 is being deasserted and return true(1) if Digital Input Number 4 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 4 is being asserted and return true(1) if Digital Input Number 4 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput4 3 } envDigInput4TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 4. When envDigInput4TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput4TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput4 4 } envDigInput5 OBJECT IDENTIFIER ::= { envDigitalInputs 5 } envDigInput5State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 5. When the envDigInput5Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput5Polarity is set to activeHigh(1) and the input on Digital Input Number 5 is asserted, this variable returns true(1). When the envDigInput5Polarity is set to activeLow(2) and the input on Digital Input 5 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput5 1 } envDigInput5Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 5. The text string is stored in non-volatile memory." ::= { envDigInput5 2 } envDigInput5Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 5. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 5 is being deasserted and return true(1) if Digital Input Number 5 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 5 is being asserted and return true(1) if Digital Input Number 5 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput5 3 } envDigInput5TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 5. When envDigInput5TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput5TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput5 4 } envDigInput6 OBJECT IDENTIFIER ::= { envDigitalInputs 6 } envDigInput6State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 6. When the envDigInput6Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput6Polarity is set to activeHigh(1) and the input on Digital Input Number 6 is asserted, this variable returns true(1). When the envDigInput6Polarity is set to activeLow(2) and the input on Digital Input 6 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput6 1 } envDigInput6Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 6. The text string is stored in non-volatile memory." ::= { envDigInput6 2 } envDigInput6Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 6. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 6 is being deasserted and return true(1) if Digital Input Number 6 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 6 is being asserted and return true(1) if Digital Input Number 6 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput6 3 } envDigInput6TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 6. When envDigInput6TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput6TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput6 4 } envDigInput7 OBJECT IDENTIFIER ::= { envDigitalInputs 7 } envDigInput7State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 7. When the envDigInput7Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput7Polarity is set to activeHigh(1) and the input on Digital Input Number 7 is asserted, this variable returns true(1). When the envDigInput7Polarity is set to activeLow(2) and the input on Digital Input 7 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput7 1 } envDigInput7Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 7. The text string is stored in non-volatile memory." ::= { envDigInput7 2 } envDigInput7Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 7. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 7 is being deasserted and return true(1) if Digital Input Number 7 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 7 is being asserted and return true(1) if Digital Input Number 7 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput7 3 } envDigInput7TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 7. When envDigInput7TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput7TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput7 4 } envDigInput8 OBJECT IDENTIFIER ::= { envDigitalInputs 8 } envDigInput8State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 8. When the envDigInput8Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput8Polarity is set to activeHigh(1) and the input on Digital Input Number 8 is asserted, this variable returns true(1). When the envDigInput8Polarity is set to activeLow(2) and the input on Digital Input 8 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput8 1 } envDigInput8Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 8. The text string is stored in non-volatile memory." ::= { envDigInput8 2 } envDigInput8Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 8. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 8 is being deasserted and return true(1) if Digital Input Number 8 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 8 is being asserted and return true(1) if Digital Input Number 8 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput8 3 } envDigInput8TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 8. When envDigInput8TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput8TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput8 4 } envDigInput9 OBJECT IDENTIFIER ::= { envDigitalInputs 9 } envDigInput9State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 9. When the envDigInput9Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput9Polarity is set to activeHigh(1) and the input on Digital Input Number 9 is asserted, this variable returns true(1). When the envDigInput9Polarity is set to activeLow(2) and the input on Digital Input 9 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput9 1 } envDigInput9Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 9. The text string is stored in non-volatile memory." ::= { envDigInput9 2 } envDigInput9Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 9. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 9 is being deasserted and return true(1) if Digital Input Number 9 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 9 is being asserted and return true(1) if Digital Input Number 9 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput9 3 } envDigInput9TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 9. When envDigInput9TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput9TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput9 4 } envDigInput10 OBJECT IDENTIFIER ::= { envDigitalInputs 10 } envDigInput10State OBJECT-TYPE SYNTAX INTEGER { true(1), false(2), notInstalled(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of Digital Input Number 10. When the envDigInput10Polarity is set to notDefined(3) this variable returns notInstalled(3). When the envDigInput10Polarity is set to activeHigh(1) and the input on Digital Input Number 10 is asserted, this variable returns true(1). When the envDigInput10Polarity is set to activeLow(2) and the input on Digital Input 10 is deasserted, this variable returns true(1). In all other cases, this variable returns false(2)." ::= { envDigInput10 1 } envDigInput10Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Digital Input Number 10. The text string is stored in non-volatile memory." ::= { envDigInput10 2 } envDigInput10Polarity OBJECT-TYPE SYNTAX INTEGER { activeHigh(1), activeLow(2), notDefined(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The Polarity to be associated with the State variable for Digital Input Number 10. It controls the value returned by the State variable. When Polarity is set to notDefined(3), State will return notInstalled(3). When Polarity is set to activeHigh(1), State will return false(2) if Digital Input Number 10 is being deasserted and return true(1) if Digital Input Number 10 is being asserted. When Polarity is set to activeLow(2), State will return false(2) if Digital Input Number 10 is being asserted and return true(1) if Digital Input Number 10 is being deasserted. Polarity is stored in non-volatile memory." ::= { envDigInput10 3 } envDigInput10TrapEnabled OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "A TRAP may be associated with the State variable for Digital Input Number 10. When envDigInput10TrapEnabled is set to true(1), a TRAP message will be generated when State is true(1). When envDigInput10TrapEnabled is set to false(2), a TRAP message will not be generated regardless of the value of State. TrapEnabled is stored in non-volatile memory." ::= { envDigInput10 4 } envRelays OBJECT IDENTIFIER ::= { envMIB 3 } envRelay1 OBJECT IDENTIFIER ::= { envRelays 1 } envRelay1State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of Output Relay Number 1. When State is set to on(1) Output Relay Number 1 is activated and the normally open contacts are closed. When State is set to off(2) Output Relay Number 1 is deactivated and the normally closed contacts are closed." ::= { envRelay1 1 } envRelay1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Output Relay Number 1. The text string is stored in non-volatile memory." ::= { envRelay1 2 } envRelay1Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envRelay1 3 } envRelay2 OBJECT IDENTIFIER ::= { envRelays 2 } envRelay2State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of Output Relay Number 2. When State is set to on(1) Output Relay Number 2 is activated and the normally open contacts are closed. When State is set to off(2) Output Relay Number 2 is deactivated and the normally closed contacts are closed." ::= { envRelay2 1 } envRelay2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Output Relay Number 2. The text string is stored in non-volatile memory." ::= { envRelay2 2 } envRelay2Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envRelay2 3 } envOutputs OBJECT IDENTIFIER ::= { envMIB 4 } envAudible OBJECT IDENTIFIER ::= { envOutputs 1 } envAudibleState OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Audible Output. When State is set to on(1) the Audible will be sounded. When State is set to off(2) the Audible is muted." ::= { envAudible 1 } envAudibleControl OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envAudible 2 } envLED1 OBJECT IDENTIFIER ::= { envOutputs 2 } envLED1State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of Output LED Number 1. When State is set to on(1) LED Number 1 will be lighted. When State is set to off(2) LED Number 1 will not be lighted." ::= { envLED1 1 } envLED1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Output LED Number 1. The text string is stored in non-volatile memory." ::= { envLED1 2 } envLED1Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envLED1 3 } envLED2 OBJECT IDENTIFIER ::= { envOutputs 3 } envLED2State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of Output LED Number 2. When State is set to on(1) LED Number 2 will be lighted. When State is set to off(2) LED Number 2 will not be lighted." ::= { envLED2 1 } envLED2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Output LED Number 2. The text string is stored in non-volatile memory." ::= { envLED2 2 } envLED2Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envLED2 3 } envLED3 OBJECT IDENTIFIER ::= { envOutputs 4 } envLED3State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of Output LED Number 3. When State is set to on(1) LED Number 3 will be lighted. When State is set to off(2) LED Number 3 will not be lighted." ::= { envLED3 1 } envLED3Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Output LED Number 3. The text string is stored in non-volatile memory." ::= { envLED3 2 } envLED3Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "If Control value is 0 then this output may be directly controlled by the SNMP Manager. When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will activate the output when the any of the associated conditions is sensed and de-activate the output when all conditions clear. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envLED3 3 } envReceptacles OBJECT IDENTIFIER ::= { envMIB 5 } envReceptacle1 OBJECT IDENTIFIER ::= { envReceptacles 1 } envReceptacle1State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 1. When State is set to on(1) power will be live on Receptacle Number 1. When State is set to off(2) no power is available from Receptacle Number 1. When State is set to reboot(3) the power will be removed from Receptacle Number 1 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 1 will switch on according to envReceptacle1Control. When State is set to eventOff(5) Receptacle Number 1 will switch off according to envReceptacle1Control. When State is set to eventReboot(5) Receptacle Number 1 will switch off for 20 seconds then return to on according to envReceptacle1Control." ::= { envReceptacle1 1 } envReceptacle1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 1. The text string is stored in non-volatile memory." ::= { envReceptacle1 2 } envReceptacle1Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle1ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle1 3 } envReceptacle1Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 1. When Status is on(1) power will be live on Receptacle Number 1. When Status is off(2) no power is available from Receptacle Number 1. When Status is reboot(3) the power is being removed from Receptacle Number 1 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 1. When Status is eventOff(2) no power is available from Receptacle Number 1. When Status is eventReboot(3) the power is being removed from Receptacle Number 1 for 20 seconds and then power will be restored." ::= { envReceptacle1 4 } envReceptacle1ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle1 5 } envReceptacle2 OBJECT IDENTIFIER ::= { envReceptacles 2 } envReceptacle2State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 2. When State is set to on(1) power will be live on Receptacle Number 2. When State is set to off(2) no power is available from Receptacle Number 2. When State is set to reboot(3) the power will be removed from Receptacle Number 2 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 2 will switch on according to envReceptacle2Control. When State is set to eventOff(5) Receptacle Number 2 will switch off according to envReceptacle2Control. When State is set to eventReboot(5) Receptacle Number 2 will switch off for 20 seconds then return to on according to envReceptacle2Control." ::= { envReceptacle2 1 } envReceptacle2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 2. The text string is stored in non-volatile memory." ::= { envReceptacle2 2 } envReceptacle2Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle2ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle2 3 } envReceptacle2Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 2. When Status is on(1) power will be live on Receptacle Number 2. When Status is off(2) no power is available from Receptacle Number 2. When Status is reboot(3) the power is being removed from Receptacle Number 2 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 2. When Status is eventOff(2) no power is available from Receptacle Number 2. When Status is eventReboot(3) the power is being removed from Receptacle Number 2 for 20 seconds and then power will be restored." ::= { envReceptacle2 4 } envReceptacle2ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle2 5 } envReceptacle3 OBJECT IDENTIFIER ::= { envReceptacles 3 } envReceptacle3State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 3. When State is set to on(1) power will be live on Receptacle Number 3. When State is set to off(2) no power is available from Receptacle Number 3. When State is set to reboot(3) the power will be removed from Receptacle Number 3 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 3 will switch on according to envReceptacle3Control. When State is set to eventOff(5) Receptacle Number 3 will switch off according to envReceptacle3Control. When State is set to eventReboot(5) Receptacle Number 3 will switch off for 20 seconds then return to on according to envReceptacle3Control." ::= { envReceptacle3 1 } envReceptacle3Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 3. The text string is stored in non-volatile memory." ::= { envReceptacle3 2 } envReceptacle3Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle3ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle3 3 } envReceptacle3Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 3. When Status is on(1) power will be live on Receptacle Number 3. When Status is off(2) no power is available from Receptacle Number 3. When Status is reboot(3) the power is being removed from Receptacle Number 3 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 3. When Status is eventOff(2) no power is available from Receptacle Number 3. When Status is eventReboot(3) the power is being removed from Receptacle Number 3 for 20 seconds and then power will be restored." ::= { envReceptacle3 4 } envReceptacle3ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle3 5 } envReceptacle4 OBJECT IDENTIFIER ::= { envReceptacles 4 } envReceptacle4State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 4. When State is set to on(1) power will be live on Receptacle Number 4. When State is set to off(2) no power is available from Receptacle Number 4. When State is set to reboot(3) the power will be removed from Receptacle Number 4 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 4 will switch on according to envReceptacle4Control. When State is set to eventOff(5) Receptacle Number 4 will switch off according to envReceptacle4Control. When State is set to eventReboot(5) Receptacle Number 4 will switch off for 20 seconds then return to on according to envReceptacle4Control." ::= { envReceptacle4 1 } envReceptacle4Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 4. The text string is stored in non-volatile memory." ::= { envReceptacle4 2 } envReceptacle4Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle4ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle4 3 } envReceptacle4Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 4. When Status is on(1) power will be live on Receptacle Number 4. When Status is off(2) no power is available from Receptacle Number 4. When Status is reboot(3) the power is being removed from Receptacle Number 4 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 4. When Status is eventOff(2) no power is available from Receptacle Number 4. When Status is eventReboot(3) the power is being removed from Receptacle Number 4 for 20 seconds and then power will be restored." ::= { envReceptacle4 4 } envReceptacle4ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle4 5 } envReceptacle5 OBJECT IDENTIFIER ::= { envReceptacles 5 } envReceptacle5State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 5. When State is set to on(1) power will be live on Receptacle Number 5. When State is set to off(2) no power is available from Receptacle Number 5. When State is set to reboot(3) the power will be removed from Receptacle Number 5 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 5 will switch on according to envReceptacle5Control. When State is set to eventOff(5) Receptacle Number 5 will switch off according to envReceptacle5Control. When State is set to eventReboot(5) Receptacle Number 5 will switch off for 20 seconds then return to on according to envReceptacle5Control." ::= { envReceptacle5 1 } envReceptacle5Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 5. The text string is stored in non-volatile memory." ::= { envReceptacle5 2 } envReceptacle5Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle5ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle5 3 } envReceptacle5Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 5. When Status is on(1) power will be live on Receptacle Number 5. When Status is off(2) no power is available from Receptacle Number 5. When Status is reboot(3) the power is being removed from Receptacle Number 5 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 5. When Status is eventOff(2) no power is available from Receptacle Number 5. When Status is eventReboot(3) the power is being removed from Receptacle Number 5 for 20 seconds and then power will be restored." ::= { envReceptacle5 4 } envReceptacle5ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle5 5 } envReceptacle6 OBJECT IDENTIFIER ::= { envReceptacles 6 } envReceptacle6State OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Number 6. When State is set to on(1) power will be live on Receptacle Number 6. When State is set to off(2) no power is available from Receptacle Number 6. When State is set to reboot(3) the power will be removed from Receptacle Number 6 for 20 seconds and then power will be restored. When State is set to eventOn(4) Receptacle Number 6 will switch on according to envReceptacle6Control. When State is set to eventOff(5) Receptacle Number 6 will switch off according to envReceptacle6Control. When State is set to eventReboot(5) Receptacle Number 6 will switch off for 20 seconds then return to on according to envReceptacle6Control." ::= { envReceptacle6 1 } envReceptacle6Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Receptacle Number 6. The text string is stored in non-volatile memory." ::= { envReceptacle6 2 } envReceptacle6Control OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When Control contains any of the following values, or a value resulting from the sum of any of these values the Agent will set the output to the state specified by envReceptacle6ControlState. When all conditions clear the receptacle will return to the initial state. DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288 The Control variable is stored in non-volatile memory." ::= { envReceptacle6 3 } envReceptacle6Status OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3), eventOn(4), eventOff(5), eventReboot(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the Receptacle Number 6. When Status is on(1) power will be live on Receptacle Number 6. When Status is off(2) no power is available from Receptacle Number 6. When Status is reboot(3) the power is being removed from Receptacle Number 6 for 20 seconds and then power will be restored. When Status is eventOn(1) power will be live on Receptacle Number 6. When Status is eventOff(2) no power is available from Receptacle Number 6. When Status is eventReboot(3) the power is being removed from Receptacle Number 6 for 20 seconds and then power will be restored." ::= { envReceptacle6 4 } envReceptacle6ReceptDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS optional DESCRIPTION "Receptacle control delay is used to delay the on, off, reboot or event control of the receptacle." ::= { envReceptacle6 5 } envReceptacleMaster OBJECT IDENTIFIER ::= { envReceptacles 7 } envReceptacleMasterOnOff OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), reboot(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of the Receptacle Master Control. When State is set to on(1) power to each receptacle will under control of the individual states & events. When State is set to off(2) no power is available from any receptacle. When set to reboot(3), power will be removed from all receptacles for 20 seconds and then returned to control of the individual states and events." ::= { envReceptacleMaster 1 } envReceptacleMasterDelay OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS optional DESCRIPTION "Receptacle master delay is used to delay the power to each receptacle after a on or reboot of the envReceptacleMasterOnOff. The power return will be staggered from 1 thru 6." ::= { envReceptacleMaster 2 } envAlarms OBJECT IDENTIFIER ::= { envMIB 6 } envSummaryAlarm OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The envSummaryAlarm varible will be 0 when no Digital Inputs are true and no other alarm conditions exist. When alarms are active or Digital Inputs are true the value of envSummaryAlarm indicates which alarms and inputs are active as a sum of the values listed below: DigitalInput1State true(1) 1 DigitalInput2State true(1) 2 DigitalInput3State true(1) 4 DigitalInput4State true(1) 8 DigitalInput5State true(1) 16 DigitalInput6State true(1) 32 DigitalInput7State true(1) 64 DigitalInput8State true(1) 128 DigitalInput9State true(1) 256 DigitalInput10State true(1) 512 Temperature1 above HighLimit 1024 Temperature1 below LowLimit 2048 Temperature2 above HighLimit 4096 Temperature2 below LowLimit 8192 Temperature3 above HighLimit 16384 Temperature3 below LowLimit 32768 Humidity1 above HighLimit 65536 Humidity1 below LowLimit 131072 Humidity2 above HighLimit 262144 Humidity2 below LowLimit 524288" ::= { envAlarms 1 } envTemperatureSensors OBJECT IDENTIFIER ::= { envMIB 7 } envTemperature1 OBJECT IDENTIFIER ::= { envTemperatureSensors 1 } envTemperature1State OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), installed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of use of Temperature Input Number 1. When a sensor is connected to Temperature Input 1 set State to installed(2) to indicate that the value of envTemperature1F and envTemperature1C are valid. When no sensor is connected to Temperature Input 1 set State to notInstalled(1) to indicate that the value of envTemperature1F and envTemperature1C may not be valid. This variable is stored in non-volatile memory." ::= { envTemperature1 1 } envTemperature1F OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 1 in degrees Fahrenheit." ::= { envTemperature1 2 } envTemperature1C OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 1 in degrees Centigrade." ::= { envTemperature1 3 } envTemperature1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Temperature Input Number 1. The text string is stored in non-volatile memory." ::= { envTemperature1 4 } envTemperature1OffsetF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature1F variable. The value of OffsetF is added to the value from Temperature Sensor Number 1 to obtain the value of the envTemperature1F variable. When this variable is changed the envTemperature1OffsetC variable may also be effected. The OffsetF variable is stored in non-volatile memory." ::= { envTemperature1 5 } envTemperature1OffsetC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature1C variable. The value of OffsetC is added to the value from Temperature Sensor Number 1 to obtain the value of the envTemperature1C variable. When this variable is changed the envTemperature1OffsetF variable may also be effected. The OffsetC variable is stored in in non-volatile memory." ::= { envTemperature1 6 } envTemp1HighLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature1F reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 1. The HighLimitF variable is stored in non-volatile memory." ::= { envTemperature1 7 } envTemp1HighLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature1C reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 1. The HighLimitC variable is stored in non-volatile memory." ::= { envTemperature1 8 } envTemp1LowLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature1F reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 1. The LowLimitF variable is stored in non-volatile memory." ::= { envTemperature1 9 } envTemp1LowLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature1C reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 1. The LowLimitC variable is stored in non-volatile memory." ::= { envTemperature1 10 } envTemperature2 OBJECT IDENTIFIER ::= { envTemperatureSensors 2 } envTemperature2State OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), installed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of use of Temperature Input Number 2. When a sensor is connected to Temperature Input 2 set State to installed(2) to indicate that the value of envTemperature2F and envTemperature2C are valid. When no sensor is connected to Temperature Input 2 set State to notInstalled(1) to indicate that the value of envTemperature2F and envTemperature2C may not be valid. This variable is stored in non-volatile memory." ::= { envTemperature2 1 } envTemperature2F OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 2 in degrees Fahrenheit." ::= { envTemperature2 2 } envTemperature2C OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 2 in degrees Centigrade." ::= { envTemperature2 3 } envTemperature2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Temperature Input Number 2. The text string is stored in non-volatile memory." ::= { envTemperature2 4 } envTemperature2OffsetF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature2F variable. The value of OffsetF is added to the value from Temperature Sensor Number 2 to obtain the value of the envTemperature2F variable. When this variable is changed the envTemperature2OffsetC variable may also be effected. The OffsetF variable is stored in non-volatile memory." ::= { envTemperature2 5 } envTemperature2OffsetC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature2C variable. The value of OffsetC is added to the value from Temperature Sensor Number 2 to obtain the value of the envTemperature2C variable. When this variable is changed the envTemperature2OffsetF variable may also be effected. The OffsetC variable is stored in in non-volatile memory." ::= { envTemperature2 6 } envTemp2HighLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature2F reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 2. The HighLimitF variable is stored in non-volatile memory." ::= { envTemperature2 7 } envTemp2HighLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature2C reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 2. The HighLimitC variable is stored in non-volatile memory." ::= { envTemperature2 8 } envTemp2LowLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature2F reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 2. The LowLimitF variable is stored in non-volatile memory." ::= { envTemperature2 9 } envTemp2LowLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature2C reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 2. The LowLimitC variable is stored in non-volatile memory." ::= { envTemperature2 10 } envTemperature3 OBJECT IDENTIFIER ::= { envTemperatureSensors 3 } envTemperature3State OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), airSensorInstalled(2), waterSensorInstalled(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of use of Temperature Input Number 3. When a water temperature sensor is connected to Temperature Input 3 set State to waterSensorInstalled(3), when and air temperature sensor is connected set State to airSensorInstalled(2). When no sensor is connected to Temperature Input 3 set State to notInstalled(1) to indicate that the value of envTemperature3F and envTemperature3C may not be valid. This variable is stored in non-volatile memory." ::= { envTemperature3 1 } envTemperature3F OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 3 in degrees Fahrenheit." ::= { envTemperature3 2 } envTemperature3C OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The temperature for sensor 3 in degrees Centigrade." ::= { envTemperature3 3 } envTemperature3Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Temperature Input Number 3. The text string is stored in non-volatile memory." ::= { envTemperature3 4 } envTemperature3OffsetF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature3F variable. The value of OffsetF is added to the value from Temperature Sensor Number 3 to obtain the value of the envTemperature3F variable. When this variable is changed the envTemperature3OffsetF variable may also be effected. The OffsetF variable is stored in in non-volatile memory." ::= { envTemperature3 5 } envTemperature3OffsetC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A temperature correction Offset associated with the envTemperature3C variable. The value of OffsetC is added to the value from Temperature Sensor Number 3 to obtain the value of the envTemperature3C variable. When this variable is changed the envTemperature3OffsetF variable may also be effected. The OffsetC variable is stored in in non-volatile memory." ::= { envTemperature3 6 } envTemp3HighLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature3F reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 3. The HighLimitF variable is stored in non-volatile memory." ::= { envTemperature3 7 } envTemp3HighLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature3C reaches or exceeds this value a trap will be generated signifying a high temperature condition at temperature sensor 3. The HighLimitC variable is stored in non-volatile memory." ::= { envTemperature3 8 } envTemp3LowLimitF OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature3F reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 3. The LowLimitF variable is stored in non-volatile memory." ::= { envTemperature3 9 } envTemp3LowLimitC OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envTemperature3C reaches or goes below this value a trap will be generated signifying a low temperature condition at temperature sensor 3. The LowLimitC variable is stored in non-volatile memory." ::= { envTemperature3 10 } envTemp3Calibrate OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "A temperature Offset correction routine associated with Temperature Sensor Number 3. When Calibrate is set to on(1) and State is set to waterSensorInstalled(3) the agent runs a self calibration routine which automatically adjusts the OffsetF and OffsetC variables." ::= { envTemperature3 11 } envHumiditySensors OBJECT IDENTIFIER ::= { envMIB 8 } envHumidity1 OBJECT IDENTIFIER ::= { envHumiditySensors 1 } envHumidity1State OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), installed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of use of Humidity Input Number 1. When a sensor is connected to Humidity Input 1 set State to installed(2) to indicate that the value of envHumidity1RH is valid. When no sensor is connected to Humidity Input 1 set State to notInstalled(1) to indicate that the value of envHumidity1RH may not be valid. This variable is stored in non-volatile memory." ::= { envHumidity1 1 } envHumidity1RH OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The humidity for sensor 1 in percent RH." ::= { envHumidity1 2 } envHumidity1Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Humidity Input Number 1. The text string is stored in non-volatile memory." ::= { envHumidity1 3 } envHumidity1Offset OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A humidity correction Offset associated with the envHumidity1RH variable. The value of Offset is added to the value from Humidity Sensor Number 1 to obtain the value of the envHumidity1RH variable. The Offset variable is stored in non-volatile memory." ::= { envHumidity1 4 } envHumidity1HighLimit OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envHumidity1RH reaches or exceeds this value a trap will be generated signifying a high humidity condition at humidity sensor 1. The HighLimit variable is stored in non-volatile memory." ::= { envHumidity1 5 } envHumidity1LowLimit OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envHumidity1RH reaches or goes below this value a trap will be generated signifying a low humidity condition at humidity sensor 1. The LowLimit variable is stored in non-volatile memory." ::= { envHumidity1 6 } envHumidity2 OBJECT IDENTIFIER ::= { envHumiditySensors 2 } envHumidity2State OBJECT-TYPE SYNTAX INTEGER { notInstalled(1), installed(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of use of Humidity Input Number 2. When a sensor is connected to Humidity Input 2 set State to installed(2) to indicate that the value of envHumidity2RH is valid. When no sensor is connected to Humidity Input 2 set State to notInstalled(1) to indicate that the value of envHumidity2RH may not be valid. This variable is stored in non-volatile memory." ::= { envHumidity2 1 } envHumidity2RH OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "The humidity for sensor 2 in percent RH." ::= { envHumidity2 2 } envHumidity2Label OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "A user-defined text string associated with Humidity Input Number 2. The text string is stored in non-volatile memory." ::= { envHumidity2 3 } envHumidity2Offset OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "A humidity correction Offset associated with the envHumidity2RH variable. The value of Offset is added to the value from Humidity Sensor Number 2 to obtain the value of the envHumidity2RH variable. The Offset variable is stored in non-volatile memory." ::= { envHumidity2 4 } envHumidity2HighLimit OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envHumidity2RH reaches or exceeds this value a trap will be generated signifying a high humidity condition at humidity sensor 2. The HighLimit variable is stored in non-volatile memory." ::= { envHumidity2 5 } envHumidity2LowLimit OBJECT-TYPE SYNTAX INTEGER (-2147483648..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "When envHumidity2RH reaches or goes below this value a trap will be generated signifying a low humidity condition at humidity sensor 2. The LowLimit variable is stored in non-volatile memory." ::= { envHumidity2 6 } envTraps OBJECT IDENTIFIER ::= { envMIB 11 } envSummaryAlarmTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envSummaryAlarmTrap is generated each time a digital input State variable changes to true(1) or whenever a temperature or humidity goes above the HighLimit or below the LowLimit." ::= 1 envDigInput1TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput1TrueTrap signifies that envDigitalInput1State has changed from false(2) to true(1). This trap is not generated if envDigInput1TrapEnabled is not true(1)." ::= 2 envDigInput1FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput1FalseTrap signifies that envDigitalInput1State has changed from true(1) to false(2). This trap is not generated if envDigInput1TrapEnabled is not true(1)." ::= 3 envDigInput2TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput2TrueTrap signifies that envDigitalInput2State has changed from false(2) to true(1). This trap is not generated if envDigInput2TrapEnabled is not true(1)." ::= 4 envDigInput2FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput2FalseTrap signifies that envDigitalInput2State has changed from true(1) to false(2). This trap is not generated if envDigInput2TrapEnabled is not true(1)." ::= 5 envDigInput3TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput3TrueTrap signifies that envDigitalInput3State has changed from false(2) to true(1). This trap is not generated if envDigInput3TrapEnabled is not true(1)." ::= 6 envDigInput3FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput3FalseTrap signifies that envDigitalInput3State has changed from true(1) to false(2). This trap is not generated if envDigInput3TrapEnabled is not true(1)." ::= 7 envDigInput4TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput4TrueTrap signifies that envDigitalInput4State has changed from false(2) to true(1). This trap is not generated if envDigInput4TrapEnabled is not true(1)." ::= 8 envDigInput4FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput4FalseTrap signifies that envDigitalInput4State has changed from true(1) to false(2). This trap is not generated if envDigInput4TrapEnabled is not true(1)." ::= 9 envDigInput5TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput5TrueTrap signifies that envDigitalInput5State has changed from false(2) to true(1). This trap is not generated if envDigInput5TrapEnabled is not true(1)." ::= 10 envDigInput5FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput5FalseTrap signifies that envDigitalInput5State has changed from true(1) to false(2). This trap is not generated if envDigInput5TrapEnabled is not true(1)." ::= 11 envDigInput6TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput6TrueTrap signifies that envDigitalInput6State has changed from false(2) to true(1). This trap is not generated if envDigInput6TrapEnabled is not true(1)." ::= 12 envDigInput6FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput6FalseTrap signifies that envDigitalInput6State has changed from true(1) to false(2). This trap is not generated if envDigInput6TrapEnabled is not true(1)." ::= 13 envDigInput7TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput7TrueTrap signifies that envDigitalInput7State has changed from false(2) to true(1). This trap is not generated if envDigInput7TrapEnabled is not true(1)." ::= 14 envDigInput7FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput7FalseTrap signifies that envDigitalInput7State has changed from true(1) to false(2). This trap is not generated if envDigInput7TrapEnabled is not true(1)." ::= 15 envDigInput8TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput8TrueTrap signifies that envDigitalInput8State has changed from false(2) to true(1). This trap is not generated if envDigInput8TrapEnabled is not true(1)." ::= 16 envDigInput8FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput8FalseTrap signifies that envDigitalInput8State has changed from true(1) to false(2). This trap is not generated if envDigInput8TrapEnabled is not true(1)." ::= 17 envDigInput9TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput9TrueTrap signifies that envDigitalInput9State has changed from false(2) to true(1). This trap is not generated if envDigInput9TrapEnabled is not true(1)." ::= 18 envDigInput9FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput9FalseTrap signifies that envDigitalInput9State has changed from true(1) to false(2). This trap is not generated if envDigInput9TrapEnabled is not true(1)." ::= 19 envDigInput10TrueTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput10TrueTrap signifies that envDigitalInput10State has changed from false(2) to true(1). This trap is not generated if envDigInput10TrapEnabled is not true(1)." ::= 20 envDigInput10FalseTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envDigInput10FalseTrap signifies that envDigitalInput10State has changed from true(1) to false(2). This trap is not generated if envDigInput10TrapEnabled is not true(1)." ::= 21 envTemperature1HighTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature1HighTrap signifies that the sensor reading has gone above the HighLimit value." ::= 22 envTemperature1LowTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature1LowTrap signifies that the sensor reading has gone below the LowLimit value." ::= 23 envTemperature1NormalTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature1NormalTrap signifies that the sensor reading has return to the range bounded by HighLimit and LowLimit." ::= 24 envTemperature2HighTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature2HighTrap signifies that the sensor reading has gone above the HighLimit value." ::= 25 envTemperature2LowTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature2LowTrap signifies that the sensor reading has gone below the LowLimit value." ::= 26 envTemperature2NormalTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature2NormalTrap signifies that the sensor reading has return to the range bounded by HighLimit and LowLimit." ::= 27 envTemperature3HighTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature3HighTrap signifies that the sensor reading has gone above the HighLimit value." ::= 28 envTemperature3LowTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature3LowTrap signifies that the sensor reading has gone below the LowLimit value." ::= 29 envTemperature3NormalTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envTemperature3NormalTrap signifies that the sensor reading has return to the range bounded by HighLimit and LowLimit." ::= 30 envHumidity1HighTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity1HighTrap signifies that the sensor reading has gone above the HighLimit value." ::= 31 envHumidity1LowTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity1LowTrap signifies that the sensor reading has gone below the LowLimit value." ::= 32 envHumidity1NormalTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity1NormalTrap signifies that the sensor reading has return to the range bounded by HighLimit and LowLimit." ::= 33 envHumidity2HighTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity2HighTrap signifies that the sensor reading has gone above the HighLimit value." ::= 34 envHumidity2LowTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity2LowTrap signifies that the sensor reading has gone below the LowLimit value." ::= 35 envHumidity2NormalTrap TRAP-TYPE ENTERPRISE { envTraps } DESCRIPTION "An envHumidity2NormalTrap signifies that the sensor reading has return to the range bounded by HighLimit and LowLimit." ::= 36 END