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TTF300

FIELD-MOUNT TEMPERATURE TRANSMITTER | CI/TTF300-EN REV. H

37

Output – FOUNDATION Fieldbus®

Note

The FOUNDATION Fieldbus® protocol is an unsecured protocol,
as such the intended application should be assessed to ensure
that these protocols are suitable before implementation.

Output signal

•  FOUNDATION Fieldbus H1 (IEC 611582-2)
•  Baud rate 31.25 kBit/s, ITK 5.x
•  FISCO compliant (IEC 60079-27)
•  Device ID:000320001F...

Error current signal

• FDE (Fault Disconnection Electronic)

Block structure*

•  Resource Block
•  Transducer Block 1 – Temperature
•  Transducer Block 2 – HMI (LCD indicator)
•  Transducer Block 3 – enhanced diagnosis
•  Analog Input 1 – PRIMARY_VALUE_1 (Sensor 1)
•  Analog Input 2 – PRIMARY_VALUE_2 (Sensor 2)
•  Analog Input 3 –

PRIMARY_VALUE_3 (Calculated Value**)

• Analog Input 4 – SECONDARY_VALUE (reference junction

temperature)

• Analog Output – optional HMI display

(Transducer Block 2)

• Discrete Input 1 – extended diagnosis 1

(Transducer Block 3)

• Discrete Input 2 – extended diagnosis 2

(Transducer Block 3)

• PID – PID controller

LAS (Link Active Scheduler) link master functionality

*

For the block description, block index, execution times, and

block class, refer to the interface description

**

Sensor 1, Sensor 2 or difference or mean

For detailed information, see the COM/TTX300/FF
FOUNDATION Fieldbus® interface description.

Power supply

Two-wire technology, polarity safe; power supply lines = signal
lines

Note

Following calculations apply for standard applications. This
should be taken into consideration when working with a higher
maximum current.

Power supply – HART®

Supply voltage

Non-Ex application:

U

S

= 11 to 42 V DC

Ex applications:

U

S

= 11 to 30 V DC

Maximum permissible residual ripple for supply voltage

During communication this is in accordance with the HART FSK
‘Physical Layer’ specification.

Undervoltage detection on the transmitter

If the terminal voltage on the transmitter down-scales a value of
10 V, this may lead to an output current of I

a

≤

3.6 mA.

Maximum load

R

B

= (supply voltage−11

V) / 0.022 A

A

TTF300

B

TTF300 in Ex-applications

C

HART communication resistance

Figure 29: Maximum load depending on supply voltage

Maximum power consumption

P = U

s

x 0.022 A

E.G. U

s

= 24 V



P

max

= 0.528 W

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Содержание TTF300

Страница 1: ...th the HART PROFIBUS PA and FOUNDATION Fieldbus communication protocols The TTF300 has global approvals for explosion protection up to Zone 0 The TTF300 implements various NAMUR recommendations includ...

Страница 2: ...Product identification 22 Name plate 22 Explosion protection marking for devices with one type of protection 22 Explosion protection marking for devices with several types of protection 23 5 Transpor...

Страница 3: ...cation 39 HART Communication 39 PROFIBUS Communication 40 FOUNDATION Fieldbus Communication 41 Basic Setup 41 9 Operation 42 Safety instructions 42 Hardware settings 42 Menu navigation 42 10 Maintenan...

Страница 4: ...he product may only be performed if expressly permitted by these instructions Information and symbols on the product must be observed These may not be removed and must be fully legible at all times Th...

Страница 5: ...municate information and data via a network interface It is operator s sole responsibility to provide and continuously ensure a secure connection between the product and your network or any other netw...

Страница 6: ...X II 1 G Ex ia IIC T6 T1 Ga II 2 1 G Ex ia IIC Ga ib IIC T6 T1 Gb II 2 G 1D Ex ia IIIC Da ib IIC T6 T1 Gb ATEX increased safety and dust explosion protection Approved for use in zone 2 and 22 Model T...

Страница 7: ...Ga IECEx intrinsic safety Approved for use in Zone 0 1 and 2 Model TTF300 H1H To HW rev 01 07 IECEx Certificate of Conformity From HW rev 02 00 IECEx certificate of conformity IECEx PTB 09 0014X IECE...

Страница 8: ...SCO ENTITY Max voltage Ui 30 V Ui 17 5 V Ui 24 0 V Short circuit current Ii 130 mA Ii 183 mA Ii 250 mA Max power Pi 0 8 W Pi 2 56 W Pi 1 2 W Internal inductance Li 160 H Li 10 H Li 10 H Internal capac...

Страница 9: ...easurement current circuit Maximum voltage UO 6 5 V Maximum current IO 17 8 mA Maximum power PO 39 mW Type of protection dust explosion protection Ex tb IIIC T135 C Db Ex tc IIIC T135 C Dc Non intrins...

Страница 10: ...diameter 3 2 to 8 7 mm 0 13 to 0 34 in Material Brass nickel plated The cable entry is only suitable for fixed installations and non reinforced cables with round and smooth plastic sleeves and suitabl...

Страница 11: ...14 as well as IEC EN 60079 25 The supply isolators DCS inputs must feature intrinsically safe input protection circuits in order to eliminate hazards spark formation In order to provide proof of intri...

Страница 12: ...t protection level EPL Zone 0 the TTF300 types should be installed with aluminum housings to protect against mechanical impact loads or friction Note When operating the transmitter in Zone 0 EPL Ga th...

Страница 13: ...e 2 and Zone 22 Safe area A Sensor B TTF300 transmitter C Supply isolator with voltage limit 30 V D Interface for LCD indicator E TTF300 E5H Figure 7 Hookup in ATEX Zone 2 from HW rev 02 00 00 Fuse 32...

Страница 14: ...e hybrid mixtures where explosive dusts and gases are present simultaneously is not currently permitted in accordance with EN 60079 0 and EN 60079 31 Dust explosion protection Zone 21 Marking II 2D Ex...

Страница 15: ...b Ex area Zone 1 Safe area A Sensor B Transmitter in Ex d housing C Supply isolator with voltage limit 30 V D Fuse 32 mA E Interface for LCD indicator Figure 10 Hookup in Zone 1 flameproof enclosure t...

Страница 16: ...used Close unused cable entry in accordance with EN 60079 1 The connection lead must be routed securely and in such a way as to ensure adequate protection against damage If the temperature on the ent...

Страница 17: ...protection During assembly disassembly of the device make sure that the cover thread does not get damaged Devices with damaged threads must no longer be used in potentially explosive atmospheres Prot...

Страница 18: ...Control Drawing See attached information Model TTF300 L2P Control Drawing TTF300 L2 P NI_PS TTF300 L2 P NI_AA Model TTF300 L2F Control Drawing TTF300 L2 F NI_PS TTF300 L2 F NI_AA Class I Div 2 Groups...

Страница 19: ...ng SAP_214 748 I S Class I Div 1 and Div 2 Group A B C D or I S Class I Zone 0 AEx ia IIC T Ui Vmax 9 V Ii Imax 65 2 mA Pi 101 mW Ci 0 4 F Li 0 FM Non Incendive Control Drawing SAP_214 751 N I Class I...

Страница 20: ...EN 60079 14 as well as IEC EN 60079 25 The supply isolators DCS inputs must feature intrinsically safe input protection circuits in order to eliminate hazards spark formation In order to provide proof...

Страница 21: ...evice switch off the power supply Adverse effect on the Explosionproof XP type of protection The cover thread is used as a flameproof joint for the Explosionproof XP type of protection During assembly...

Страница 22: ...ture range on additional plate for Ex versions n Specification of the transmitter supply voltage range output current range communication protocol o Serial number of the device electronics 7 or 8 digi...

Страница 23: ...If two protection types are indelibly marked on the explosion protection certification plate the transmitter must not be used in areas categorized as hazardous Devices with several types of protectio...

Страница 24: ...onditions for transport and storage Avoid storing the device in direct sunlight In principle the devices may be stored for an unlimited period However the warranty conditions stipulated in the order c...

Страница 25: ...0 to 85 C 40 to 185 F at 5 to 95 relative air humidity Max permissible humidity in accordance with IEC 60068 2 30 100 relative air humidity Vibration resistance in accordance with IEC 60068 2 6 10 to...

Страница 26: ...that the O ring gasket is properly seated when closing the housing cover Rotating the LCD indicator 1 Front view 2 Rear view of LCD indicator plug positions Figure 19 Rotating the LCD indicator The po...

Страница 27: ...rcuit in accordance with the relevant standard standard version For the explosion proof design the guidelines in accordance with the Ex standard must be adhered to You need to check that the available...

Страница 28: ...ondingly also applies to the supply side if there is a connection there Conductor material Power supply cable Maximum cable outer diameter 12 mm 0 47 in Maximum wire cross section 2 5 mm2 AWG 16 Cable...

Страница 29: ...The shielding of the power supply cable is grounded at the supply isolator DCS input directly This shielding is insulated from the transmitter housing The shielding of the power supply cable and the s...

Страница 30: ...nt 9 Supply isolator DCS input Figure 22 The shielding of the sensor connection cable and the shielding of the power supply cable are separate and each grounded at one end Insulated sensor measuring i...

Страница 31: ...transmitter housing and grounded at one end Non insulated sensor measuring inset thermocouple transmitter housing grounded The shielding of the sensor connection cable is grounded via the grounded pre...

Страница 32: ...two wire circuit F RTD four wire circuit G RTD three wire circuit H RTD two wire circuit I Sensor 1 J Sensor 2 K 4 to 20 mA HART PROFIBUS PA FOUNDATION Fieldbus L Interface for LCD indicator and serv...

Страница 33: ...cuit and thermocouple G 1 x RTD two wire circuit and thermocouple H Sensor 1 I Sensor 2 J 4 to 20 mA HART PROFIBUS PA FOUNDATION Fieldbus K Interface for LCD indicator and service L Ground terminal fo...

Страница 34: ...y 4 Strip the sensor connection cable as shown and attach wire end sleeves A line length of 190 mm should be ensured between the cable gland entry and the terminals 140 mm should be stripped from the...

Страница 35: ...uit and sensor wire break Linear resistance measurement Sensor wire break Input thermocouples voltages Types B E J K N R S T in accordance with IEC 60584 U L in accordance with DIN 43710 C in accordan...

Страница 36: ...A Notice From SW rev 03 00 The default factory setting for the error current signal is low alarm 3 5 mA in accordance with NAMUR recommendations NE 93 NE 107 and NE 131 Overrange high alarm 22 mA 20 0...

Страница 37: ...ID controller LAS Link Active Scheduler link master functionality For the block description block index execution times and block class refer to the interface description Sensor 1 Sensor 2 or differen...

Страница 38: ...onality Adding resistance R250 increases the minimum supply voltage U2min U1min U2min 22 mA x R R250 For HART functionality use supply isolators or DCS input cards with a HART mark If this is not poss...

Страница 39: ...communication signal is modulated onto both wires of the signal line in accordance with the HART FSK Physical Layer specification The HART modem is connected at the signal line of the current output v...

Страница 40: ...es from SW rev 03 00 The HART device stores information on critical events and configuration changes The information can be output via tools Event monitor for the logging of critical events Configurat...

Страница 41: ...on of the transmitter via HART PROFIBUS PA and FOUNDATION Fieldbus H1 are described in the separate documentation Interface Description for the relevant protocol COM TTX300 The following configuration...

Страница 42: ...Note Factory setting both switches set to OFF Local write protection deactivated and HART 5 unless explicitly ordered HART 7 HART version or simulation locked FOUNDATION Fieldbus In PROFIBUS PA device...

Страница 43: ...They should be disposed of through separate collection of electric and electronic devices This product and its packaging are manufactured from materials that can be recycled by specialist recycling co...

Страница 44: ...Company Address Contact person Telephone Fax Email Device details Type Serial no Reason for the return description of the defect Was this device used in conjunction with substances which pose a threa...

Страница 45: ...EV H 45 Trademarks HART is a registered trademark of FieldComm Group Austin Texas USA PROFIBUS and PROFIBUS PA are registered trademarks of PROFIBUS PROFINET International PI FOUNDATION Fieldbus is a...

Страница 46: ...46 TTF300 FIELD MOUNT TEMPERATURE TRANSMITTER CI TTF300 EN REV H Notes...

Страница 47: ...TTF300 FIELD MOUNT TEMPERATURE TRANSMITTER CI TTF300 EN REV H 47 Notes...

Страница 48: ...notice With regard to purchase orders the agreed particulars shall prevail ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document We re...

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