Fluid Control Valve Series Precision Sampling Pump Series Suction and Cleaning Pump Series System Solution ODM Special precision machining

Precision Sampling Pump Series> Syringe Pump> Glass Syringe Module

  • Product Parameter

  • Structural Advantage

  • Model

  • Overall Dimension Drawing

ModelGlass Syringe pump
Dispense volume100ul,250ul,500ul,1ml,2.5ml,5ml,10m etc
Sealing materialBorosilicate+PTFE
Travel distance(mm)60
Lead(mm)62.5
Distance per stroke(mm/step)0.030.0125
Volume per stroke (ul/step)0.0005*V0.0002083*V
Motor step angle1.8 °
Motor current(A)1.2
Max motor speed(r/s)12
Dispense precision0.02
Coefficient of variation(CV)2% dispense:<1.2%CV;10% dispense:<1%CV
Dispense precision0.02
Life cycle (cycles)ul level:3 million/ml level:2 million
Connection port1/4-28 UNF;M6

Aspina Motor:


Black MotorBlack-White Motor
Outline
Dimension
Lead Wire
Connection
Method


Electrical
Parameters
Default Line
Length
500±5mmDefault Line
Length
320±5mm
Angle Per
Stroke
1.8°Angle Per
Stroke
1.8°
Rated Voltage3.7 VRated Voltage3.7 V
Rated Current1.2ARated Current1.2A
Resistance1.55ohm±10%Resistance3.1ohm±10%
(half-coil winding)
Indudtance4.2 mH±20%Indudtance4.2 mH±20%
Holding TorqueAbove 275 mN-rmHolding TorqueAbove 275 mN-rm
Morment Of
Inertia
48 g-cm2Morment Of
Inertia
48 g-cm2
Max Speed12r/sMax Speed12r/s (high speed)
Current
Setting

Set the output current equal to or

slightly less than motor rated

current.

6 wires high torque motor (whole -coil

winding):

Set the output current 70% of the rated

current of unipolar motor connedtion.

6 wires high speed motor (half-coil

winding):

Set the output current equal to or

slightly less than motor rated current.

Frequency-
Torque
Curve

Optical Coupler:


4 Wires OC5 Wires OC
Schematic
Diagram
Lead WireWire ColorElectric SignWire ColorElectric Sign
RedAnodeRedAnode
BlackCathodeBlackCathode
WhiteCollectorWhiteVcc
GreenEmitterBlueOutput


GreenGround
Application
Circuit
Diagrams

Electrical
Parameters
Input Diode (E)Input Diode (E)

Input Diode Power Dissipation

75mW

Input Diode Power Dissipation

100mW

Input Diode Forward D.C. Current

50mA

Input Diode Forward D.C. Current

40mA

Input Diode Forward D.C. Voltage

2V

Input Diode Forward D.C. Voltage

2V

Forward Voltage(VF)

1.8V(max)

Forward Voltage(VF)

1.7V(max)
Output Diode (S)Sensor (S)

Collector-Emitter Voltage

30V

Supply Voltage (Vcc to Ground)

24V

Output Photologic®Power

Dissipation

100mW

Output Photologic®Power

Dissipation

200mW

Emitter-Collcctor Voltage

5VVoltage at Output lead (OUT≈Vcc )24V

Collctor DC Current

30mAShort Circuit Output to Ground30mA
Collector-Emitter Saturation VoltageLow Level Output Voltage
VCE(SAT)0.4V(max)VCL0.4V(max)
IC400uAVCC4.5V
IF20mAIOL12.8mA


IF0mA
On-State Collector CurrentHigh Level Output Voltage
IC(ON)0.5mA(min)VCC4.5~16V
VCE10VVCHVCC-2.1V
IF20mAIOL-800uA


IF15mA
Fomula
Reference

R1 =

(VCC-VF)
————————
IF

R2 =

VCC-VCEsat
————————
IC(on)


Wire
Connection
Description
▼Red wire: The voltage of power source is
in the rage of DC 5-24v. Before connection, it
needs series connection with a current
limited res istor:
Note:
1. The value of R1 ,R2 refers to the formula
2. When Vout(white wire) is PLC input,
whether connect with ampliftying circle should
be based on PLC input current
When connects with +5V, the resistance of
R1 is 200Ω.
When connects with +12V, the resistance of
R1 is 1KΩ.
When connects with +24V, the resistance of
R1 is 2KΩ.
▼Black wire: Connect with cathode of power
Source.
▼White wire: Signal output wire. Connect
with anode of logic powver, the voltage is
5V~24V, if necessary, pull the resistance R2.
▼Green wire: Connect with cathode of logic
power.
▼Red wire: The voltage of power source
is in the rage of DC 5-24V. Before
connection, it needs series connedtion with
a current limited resistor:
When red wire connects with +5V pover
Source,
it needs series connection with about 200Ω
limited resistor;
When red wire connects with +24V power
source, it needs series connection with
about 2KΩ limited resistor.
▼Black wire:Connectwith cathode of
power Source.
▼White wire: At the photoelectric sensor
output, the voltage of logic power is
5V~24V, and does not need s eries resistor.
▼Green wire: Connect with cathode of
logic power.
▼Blue wire: Signal outputwire is
connecting wvith contol device to check the
primary pos ition of syringe module. Export
low electrical level when at primary
posifion, and export high level wthen at
other positions.

Piston type structure:

Main Features1,High repeatability,high precision,long life;
2,Double guide bearing structure,ensures the stability of the motion;
3,Unique sealing scheme and advanced processing technology guarantee,maintenance free;
Applicable occasions1.Suitable for high-precision occasions such as precise quantification, liquid suction and discharge.

DisplacementRegular Model

Position of chamber port

1ml7266-32/63NC43-A04Only one on top,1/4-28 UNF

Note:

If the medium is air or crystallizing, please contact our sales engineers for customized syringe to meet specific needs.


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