New Era NE-1000 Multi-Phaser Programmable Syringe User Manual
Page 4
New Era Pump Systems Inc.
www.SyringePump.com
Model NE-1000 Multi-Phaser™
Publication #1200-01
iii
08/01/14
7.5
C
HANGING THE
P
UMPING
R
ATE AND
D
IRECTION
W
HILE
P
UMPING
........................ 13
7.6
V
OLUME
D
ISPENSED
..................................................................................................... 13
7.7
R
ESUMING
W
HEN
P
AUSED
........................................................................................... 14
7.8
P
UMP
S
TALLED
............................................................................................................. 14
8. SETUP CONFIGURATION .............................................................................................. 14
8.1
P
OWER
F
AILURE
M
ODE
............................................................................................... 15
8.2
L
OW
N
OISE
M
ODE
........................................................................................................ 15
8.3
A
UDIBLE
A
LARM
E
NABLE
............................................................................................ 15
8.4
TTL
I/O
O
PERATIONAL
T
RIGGER
D
EFAULT
C
ONFIGURATION
................................ 15
8.5
TTL
I/O
D
IRECTIONAL
C
ONTROL
I
NPUT
C
ONFIGURATION
..................................... 16
8.6
P
UMP
M
OTOR
O
PERATING
TTL
O
UTPUT
C
ONFIGURATION
..................................... 16
8.7
K
EYPAD
L
OCKOUT
....................................................................................................... 16
8.8
K
EYPAD AND
N
OTIFICATION
B
EEP
E
NABLE
............................................................... 17
8.9
RS-232
P
UMP
N
ETWORK
C
ONFIGURATION
................................................................ 17
9. PUMPING PROGRAM ...................................................................................................... 17
9.1
H
OW TO
E
NTER
P
UMPING
P
ROGRAMS
....................................................................... 18
9.1.1
P
UMPING
P
ROGRAM
P
HASE
N
UMBER
..................................................................... 19
9.2
P
UMPING
P
ROGRAM
E
DIT
F
UNCTIONS
....................................................................... 19
9.3
P
ROGRAM
F
UNCTION
D
ESCRIPTIONS
......................................................................... 20
9.3.1
‘
R
A
T
E’:
R
ATE
F
UNCTION
....................................................................................... 20
9.3.2
‘FILL’:
F
ILL
F
UNCTION
.......................................................................................... 20
9.3.3
‘I
N
C
R
’:
I
NCREMENT
R
ATE
F
UNCTION
.................................................................... 20
9.3.4
‘DEC
R
’:
D
ECREMENT
R
ATE
F
UNCTION
................................................................. 20
9.3.5
‘S
TO
P’:
S
TOP
P
UMPING
O
PERATION AND
E
ND THE
P
ROGRAM
.............................. 20
9.3.6
‘JP:
NN
’:
J
UMP TO
P
HASE
........................................................................................ 20
9.3.7
'P
R
:I
N
':
S
UB
-P
ROGRAM
S
ELECTION
I
NPUT
............................................................. 20
9.3.8
'P
R
:
NN
':
S
UB
-P
ROGRAM
S
TART
L
ABEL
................................................................... 21
9.3.9
‘LP:ST’:
D
EFINE
S
TARTING
P
HASE OF
L
OOP
......................................................... 21
9.3.10 ‘LP:EN’:
D
EFINE
C
ONTINUOUS
L
OOP
E
ND
........................................................... 21
9.3.11 ‘LP:
NN
’:
D
EFINE
L
OOP
E
ND AND
L
OOP
R
EPETITIONS
........................................... 21
9.3.12 'PS:
NN
':
P
AUSE
P
UMPING
....................................................................................... 22
9.3.13 'IF:
NN
':
J
UMP TO
P
HASE
I
F
E
XTERNAL
T
RIGGER
.................................................... 22
9.3.14 'E
T
:
NN
':
S
ETUP
E
VENT
T
RIGGER
J
UMP
P
HASE
....................................................... 22
9.3.15 'ES:
NN
':
S
ETUP
E
VENT
S
QUARE
W
AVE
T
RIGGER
J
UMP
P
HASE
.............................. 23
9.3.16 'E
T
:
R
S':
E
VENT
R
ESET
............................................................................................ 23
9.3.17 ‘CL
R
.
D
’:
C
LEAR
T
OTAL
V
OLUME
D
ISPENSED
........................................................ 23
9.3.18 ‘
TR
:
AA
’:
O
VERRIDE
O
PERATIONAL
T
RIGGER
C
ONFIGURATION
............................. 23
9.3.19 'OU
T
.
N
':
S
ET
TTL
O
UTPUT
P
IN
.............................................................................. 23
9.3.20 '
B
EEP':
B
EEP
.......................................................................................................... 23
9.4
P
UMPING
P
ROGRAM
E
XAMPLES
.................................................................................. 24
9.4.1
E
XAMPLE
1:
2
S
TEP
R
ATE
...................................................................................... 24
9.4.2
E
XAMPLE
2:
R
EPEATED
D
ISPENSES WITH
S
UCK
B
ACK
.......................................... 24
9.4.3
E
XAMPLE
3:
R
AMPING THE
F
LOW
R
ATE
................................................................ 25
9.4.4
E
XAMPLE
4:
C
OMPLEX
D
ISPENSES WITH
E
XTERNAL
S
YNCHRONIZATION
............ 26
9.4.5
E
XAMPLE
5:
C
ONTROL FROM A
H
IGH
-L
OW
P
RESSURE
S
ENSOR
............................ 27
9.4.6
E
XAMPLE
6:
A
UTOMATED
D
ISPENSING WITH
S
YNCHRONIZATION
........................ 28
9.4.7
E
XAMPLE
7:
S
UB
-P
ROGRAMS
................................................................................ 29
9.4.8
E
XAMPLE
8:
D
ISPENSING WITH
C
OMPLEX
S
YNCHRONIZATION
............................. 30
9.4.9
E
XAMPLE
9:
A
UTOMATIC
R
EFILL
.......................................................................... 31
10.
RS-232 COMMUNICATIONS ....................................................................................... 31
10.1
C
ONNECTION AND
N
ETWORKING
............................................................................ 31