Hpg400-sp profibus, General information, Technical data hpg400-sp – INFICON HPG400-SP High Pressure / Pirani Gauge User Manual

HPG400-SP Profibus

General Information

The HPG400-SP gauge has a fieldbus interface
that conforms to the Profibus DPV1 standard
(

→ [9]).

Via this interface, the following and further data
are exchanged in the standardized Profibus pro-
tocol (

→ [1], [2]):

• Pressure reading
• Pressure unit (mbar, Torr, Pa)
• Gauge adjustment
• Status and error messages

Two adjustable switching functions are integrated in the
gauge. The corresponding relay contacts are available at the
sensor cable connector.

The basic sensor and sensor electronics of the HPG400-SP
type are the same as in the standard HPG400 (

→ [1], [2]).

Technical Data HPG400-SP

General technical data of the sensor and sensor
electronics

→ [1], [2].

Fieldbus Interface

Fieldbus name

Profibus

Standard applied

→ [9]
(Profibus DPV1)

Communication protocol,
data format

→ [4], [9]

Interface, physical

RS485

HPG400-SP Profibus parameters

Data rate

≤12 Mbaud
(

→ [4], [9])

Node address
(adjustable via hexadecimal
"ADDRESS, MSD, LSD"
switches or programmable via
Profibus,

→ [2], [4])

00 … 7D

hex

(0 … 125

dec

)

Profibus connection

D-Sub, 9 pins, female

Cable

Shielded special
Profibus cable
(

→ [7], [9])

Cable length, system wiring

According to Profibus
specifications (

→ [7],

[9])

Supply Voltages

DANGER

The gauge may only be connected to power
supplies, instruments or control devices that
conform to the requirements of a grounded pro-
tective extra-low voltage (SELV-E according to
EN 61010). The connection to the gauge has to
be fused.

The power consumption of the HPG400-SP is higher
than that of the standard HPG400.

Supply voltage at sensor cable
connector, Pin 8

+24 VDC (+20 … 28 V)

Power consumption

<18 W

Sensor Cable Connection

For reasons of compatibility, the expression "sensor
cable" is used in this document, although the pres-
sure reading of the SP-type gauge is normally trans-
mitted via the Profibus interface.

Connector

D-Sub, 15 pins, male

Cable

Max. 15 conductors,
shielded

Cable length
(cross section/conductor)

≤35 m

(0.25 mm

2

)

≤50 m

(0.34 mm

2

)

≤100 m (1.0 mm

2

)

Switching functions

2
Setpoints adjustable via
potentiometers (Setpoints
A and B), one floating,
normally open contact per
setpoint

Relay contact rating

≤60 VDC, ≤0.5 A

Gauge identification

56 k

Ω between Pin 10

(sensor cable) and GND

Grounding principle

→ "Electrical Connection"

Dimensions

Housing and vacuum connection

→ [1], [2]

Weight

353-525
353-526

430 g
695 g

Electrical Connection

Make sure the vacuum connection is properly made
(

→ [1], [2], " Vacuum Connection ").

n

If no sensor cable is available, make one according to

the diagram.

Threshold SP A

Threshold SP B

SP A

SP B

TxD

RxD

+U

b

Measuring signal

56 kΩ

3

6

1

4

9

11

13

14

8

2

12

10

5

15

1.25 AT

24V

Identification

0V

RS232

1

8

9

15

D-Sub, 15 pins, female
soldering side

Pin 1

Relay switching function A, COM contact

Pin 2

Signal output (measuring signal) 0 … +10 V

Pin 3

Threshold (Setpoint) A

0 … +10 V

Pin 4

Relay switching function A, N.O. contact

Pin 5

Supply common, GND

Pin 6

Threshold (Setpoint) B

0 … +10 V

Pin 7

Not connected

Pin 8

Supply voltage

+24 V

Pin 9

Relay switching function B, COM contact

Pin 10

Gauge identification

Pin 11

Relay switching function B, N.O. contact

Pin 12

Signal common, GND

Pin 13

RS232 TxD

Pin 14

RS232 RxD

Pin 15

Shielding, housing, GND

o

If no Profibus cable is available, make one according to

the following indications:

1

5

6

9

D-Sub, 9 pins, male
soldering side

Pin 1

Not connected

Pin 2

Not connected

Pin 3

RxD/TxD-P

Pin 4

CNTR-P

1)

Pin 5

DGND

2)

Pin 6

VP

2)

Pin 7

Not connected

Pin 8

RxD/TxD-N

Pin 9

Not connected

1)

Only to be connected if an optical link module is
used.

2)

Only required as line termination for devices at both
ends of bus cable (

→ [9]).

p

Connect the sensor cable to the gauge.

q

Connect the Profibus cable to the gauge.

Sensor cable

Profibus cable

r

Secure the sensor cable connector on the gauge using

the lock screws.

s

Lock the Profibus cable connector.

The gauge can now be put into operation.

Operation

Caution

Caution: data transmission errors

If the gauge is operated via an RS232 interface
(e.g. INFICON Vacuum Gauge Controller
VGC4XX) and the Profibus at the same time,
data transmission errors may occur.

The gauge must not be operated via an RS232
interface and the Profibus at the same time.

Operating Software

For operating the gauge via the Profibus network, prior in-
stallation of the gauge specific GSD file is required. This
software can be downloaded via internet (

→ [5]).

Note Address Setting

The node address (0 … 125

dec

) is set in

hexadecimal form (00 … 7D

hex

) via the

"ADDRESS", "MSD", and "LSD" switches.
The node address is polled by the firmware
when the gauge is switched on. If the
setting deviates from the stored value, the
new value is taken over into the NVRAM. If
a value >7D

hex

(>125

dec

) is entered, the

node address setting currently stored in the
device remains valid but it can now be
defined via Profibus ("Set slave Address",
→ [4]).

Adjusting the Gauge

→ "Adjustment and settings".

Setting the Switching Functions

→ "Adjustment and settings".

The gauge is now ready for operation.