Difference between revisions of "IONICUBE 1X connectors and pinouts"

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==IONICUBE 1X connectors==
 
==IONICUBE 1X connectors==
 
{{picturebox|Ionicube1x pinouts.png|caption=Connector layout and naming}}
 
{{picturebox|Ionicube1x pinouts.png|caption=Connector layout and naming}}
<br/>
+
<br />
{{picturebox|Ionicube1x wiring.png|caption=Wiring overview. R is regenerative resistor and E is encoder.}}
+
{{picturebox|Ionicube1x wiring.png|caption=Wiring overview. R is regenerative resistor and E is encoder. In minimum working connection, wire 5V voltage to ENABLE and STO2 inputs into X4 pins (these two signals allow drive to be operated). Note: STO2 accepts voltage from 4.5 to 25 VDC but other digital inputs, such as ENABLE only between 2.7 to 5.5VDC.}}
 +
{{info|If using switching power supply (SMPS) as motor power supply, external rectifier diodes are needed to protect the power supplies. See See [[IONI power supply schemes]].}}
 +
 
 
===Legend===
 
===Legend===
 
{| class="wikitable"
 
{| class="wikitable"
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! Color
 
! Color
 
|-
 
|-
| class="powpin"|Supply pin
+
| class="powpin" |Supply pin
 
|-
 
|-
| class="inpin"|Input pin
+
| class="inpin" |Input pin
 
|-
 
|-
| class="outpin"|Output pin
+
| class="outpin" |Output pin
 
|}
 
|}
 
===X3 pinout===
 
===X3 pinout===
 
This is a wire terminal connector for power input and output
 
This is a wire terminal connector for power input and output
 +
 
{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
 
!  Pin number !! Signal name !! Usage
 
!  Pin number !! Signal name !! Usage
 
|-
 
|-
| 1 ||class="powpin"| GND|| Ground
+
| 1 || class="powpin" | GND|| Ground
 
|-
 
|-
| 2|| class="powpin"|HV+ || Motor power supply, [[HV DC bus]] (see IONI drive voltage range spec)
+
| 2|| class="powpin" |HV+ || Motor power supply, [[HV DC bus]] (see IONI drive voltage range spec)
 
|-
 
|-
| 3|| class="powpin"|VCC || 24V logic supply
+
| 3|| class="powpin" |VCC || 24V logic supply
 
|-
 
|-
| 4|| class="outpin"|PH1 (PHASE1) || Motor phase 1
+
| 4|| class="outpin" |PH1 (PHASE1) || Motor phase 1 (see wiring table below)
 
|-
 
|-
| 5|| class="outpin"|PH2 (PHASE2) || Motor phase 2
+
| 5|| class="outpin" |PH2 (PHASE2) || Motor phase 2 (see wiring table below)
 
|-
 
|-
| 6|| class="outpin"|PH3 (PHASE3) || Motor phase 3
+
| 6|| class="outpin" |PH3 (PHASE3) || Motor phase 3 (see wiring table below)
 
|-
 
|-
| 7|| class="outpin"|PH4 (PHASE4) || Motor phase 4
+
| 7|| class="outpin" |PH4 (PHASE4) || Motor phase 4 (see wiring table below)
 
|-
 
|-
| 8|| class="outpin"|REG || [[Regenerative resistor]] output
+
| 8|| class="outpin" |REG || [[Regenerative resistor]] output
 
|-
 
|-
| 9 ||class="powpin"| GND|| Ground
+
| 9 || class="powpin" | GND|| Ground
 
|}
 
|}
 +
 +
{| class="wikitable"
 +
|-
 +
!  Pin number !! Signal name !! AC/BLDC motor  !! Brush DC motor !! Stepping motor
 +
|-
 +
| 1 || class="powpin" | GND|| colspan="3" | Ground for cable shield and an optional motor holding brake coil
 +
|-
 +
| 4|| class="outpin" |PHASE1 ||U (some motors R)||Armature +||Coil A.1
 +
|-
 +
| 5|| class="outpin" |PHASE2 ||V (some motors S)||Armature -||Coil A.2
 +
|-
 +
| 6|| class="outpin" |PHASE3 ||W (some motors T)||Armature -||Coil B.1
 +
|-
 +
| 7|| class="outpin" |PHASE4 || Not connected||Armature +||Coil B.2
 +
 +
|}
 +
 
====Motor & brake wiring schematics====
 
====Motor & brake wiring schematics====
 
Note: the images below are drawn for [[IONICUBE]] 4 axis version. IONICUBE 1X wiring is equivalent except there is no brake output in the X3. Brake output pin is located in X4.
 
Note: the images below are drawn for [[IONICUBE]] 4 axis version. IONICUBE 1X wiring is equivalent except there is no brake output in the X3. Brake output pin is located in X4.
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===X2 pinout===
 
===X2 pinout===
 
X2 is the [[feedback devices|feedback device]] connector of motor
 
X2 is the [[feedback devices|feedback device]] connector of motor
{| class="wikitable"
+
{{EncoderPinoutD15}}
|-
+
{{info|Especially with long encoder cables, it might be necessary to add encoder line termination resistors, see [[Terminating differential encoder lines]].}}
! Pin # !! Pin name !! Electrical type (in most feedback device modes) || Alternate electrical type (in some feedback device modes) || Connection with various feedback devices
+
|-
+
| Shell||class="powpin"|GND|| colspan=2 |Earth/case  || Feedback cable shield
+
|-
+
| 1||class="inpin"|HALL_W|| colspan=2 |Digital input W ||  Hall sensor input, phase W
+
|-
+
| 2||class="inpin"|HALL_V|| colspan=2 |Digital input V  ||Hall sensor input, phase V
+
|-
+
| 3||class="inpin"|HALL_U|| colspan=2 |Digital input U || Hall sensor input, phase U
+
|-
+
| 4||class="powpin"|GND||colspan=2 |Encoder supply ground
+
|-
+
| 5||class="inpin"|B-||Differential input B-|| SinCos input B+||rowspan=2|Quadrature encoder (B channel)/SinCos/serial encoder/resolver input
+
|-
+
| 6||class="inpin"|B+||Differential input B+|| SinCos input B-
+
|-
+
| 7||class="inpin"|A-||Differential input A-|| SinCos input A-||rowspan=2|Quadrature encoder (A channel)/SinCos/serial encoder/resolver input
+
|-
+
| 8||class="inpin"|A+||Differential input A+|| SinCos input A+
+
|-
+
| 9|| class="powpin"|5V_OUT||colspan=2 |Encoder supply 5V output  || rowspan=2|Encoder power supply
+
|-
+
| 10|| class="powpin"|GND ||colspan=2 |Encoder supply ground
+
|-
+
| 11|| class="inpin"|GPI3||colspan=2|Axis negative direction end limit switch (optional)|| Connect normally closed (NC) limit switch between this pin and GND pin
+
|-
+
| 12|| class="inpin"|GPI2||colspan=2|Axis positive direction end limit switch (optional)|| Connect normally closed (NC) limit switch between this pin and GND pin
+
|-
+
| 13|| class="inpin"|GPI1||colspan=2|Axis home switch switch (optional)|| Connect normally closed (NC) limit switch between this pin and GND pin
+
|-
+
| 14|| class="inpin"|C-||colspan=2 |Differential input C- ||rowspan=2|Quadrature encoder index channel (Z channel)/serial encoder input
+
|-
+
| 15||class="inpin"| C+||colspan=2 |Differential input C+
+
|}
+
 
====Examples of feedback device and switch wiring====
 
====Examples of feedback device and switch wiring====
 
<gallery widths="180px" heights="180px">
 
<gallery widths="180px" heights="180px">
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{| class="wikitable"
 
{| class="wikitable"
 
! Pin number in header!!Signal name!!Typical usage
 
! Pin number in header!!Signal name!!Typical usage
|rowspan=14 class="tableseparator"|
+
| class="tableseparator" rowspan="14" |
 
!Signal name!!Typical usage
 
!Signal name!!Typical usage
 
|-
 
|-
| 1||class="powpin"|GND||Ground||2||class="powpin"|5V_OUT||5V output for optional external circuity
+
| 1|| class="powpin" |GND||Ground||2|| class="powpin" |5V_OUT||5V output for optional external circuity
 
|-
 
|-
| 3||class="inpin"|HSIN2||Depending on setpoint mode, can be either: pulse input (of pulse/dir), PWM input or quadrature B input ||4||class="inpin"|HSIN1||Depending on setpoint mode, can be either: direction input (of pulse/dir or PWM) or quadrature A input
+
| 3|| class="inpin" |HSIN2||Depending on [[setpoint]] mode, can be either:  
 +
*Direction signal of pulse train (in [[Pulse and direction]] setpoint mode)
 +
*Quadrature B channel (in [[quadrature]] setpoint mode)
 +
*PWM (in PWM and [[PWM]]+Dir setpoint modes)
 +
||4|| class="inpin" |HSIN1|| Depending on [[setpoint]] mode, can be either:  
 +
*Step pulse train (in [[Pulse and direction]] setpoint mode)
 +
*Quadrature A channel (in [[quadrature]] setpoint mode)
 +
*PWM input direction (in [[PWM]]+Dir setpoint mode)  
 
|-
 
|-
| 5||class="inpin"|ANAIN+||+/-10V [[analog setpoint]] input<sup>2</sup>||6||class="inpin"|ANAIN-||+/-10V [[analog setpoint]] input<sup>2</sup>
+
| 5|| class="inpin" |ANAIN+||+/-10V [[analog setpoint]] input<sup>2</sup>||6|| class="inpin" |ANAIN-||+/-10V [[analog setpoint]] input<sup>2</sup>
 
|-
 
|-
| 7||class="inpin"|GPI2||Enable positive feed (also in X2)<sup>1</sup>||8||class="inpin"|GPI1||Home switch input (also in X2)<sup>1</sup>
+
| 7|| class="inpin" |GPI2||Enable positive feed (also in X2)<sup>1</sup>||8|| class="inpin" |GPI1||Home switch input (also in X2)<sup>1</sup>
 
|-
 
|-
| 9||class="inpin"|GPI4||Clear faults<sup>1</sup>||10||class="inpin"|GPI3||Enable negative feed (also in X2)<sup>1</sup>
+
| 9|| class="inpin" |GPI4||Clear faults<sup>1</sup>||10|| class="inpin" |GPI3||Enable negative feed (also in X2)<sup>1</sup>
 
|-
 
|-
| 11||class="outpin"|REGEN_OUT||[[Regenerative resistor]] power switch state (redundant, IONICUBE 1X has internal power switch) ||12||class="inpin"|GPI5||Start homing<sup>1</sup>
+
| 11|| class="outpin" |REGEN_OUT||[[Regenerative resistor]] power switch state (redundant, IONICUBE 1X has internal power switch) ||12|| class="inpin" |GPI5||Start homing<sup>1</sup>
 
|-
 
|-
| 13||class="outpin"|MECH_BRAKE_OUT||Mechanical holding brake output<sup>3</sup>||14||class="outpin"|GPO5||Reserved for future use<sup>1</sup>
+
| 13|| class="outpin" |MECH_BRAKE_OUT||Mechanical holding brake output<sup>3</sup>||14|| class="outpin" |GPO5||Reserved for future use<sup>1</sup>
 
|-
 
|-
| 15||class="outpin"|GPO4||Limit switch output||16||class="outpin"|GPO3||Fault on any axis or E-stop (active low)<sup>1</sup>
+
| 15|| class="outpin" |GPO4||Limit switch output||16|| class="outpin" |GPO3||Fault on any axis or E-stop (active low)<sup>1</sup>
 
|-
 
|-
| 17||class="outpin"|GPO2||Tracking error warning<sup>1</sup>||18||class="outpin"|GPO1||Servo ready<sup>1</sup>
+
| 17|| class="outpin" |GPO2||Tracking error warning<sup>1</sup>||18|| class="outpin" |GPO1||Servo ready<sup>1</sup>
 
|-
 
|-
| 19||class="inpin"|STO2||Safe torque off input (this pin also present in X1<sup>4</sup>) ||20||class="inpin"|ENABLE||Enable drive (with or without [[Charge pump enable input|chargepump]]) (this pin also present in X1<sup>4</sup>)
+
| 19|| class="inpin" |STO2||Safe torque off input (this pin also present in X1<sup>4</sup>) ||20|| class="inpin" |ENABLE||Enable drive (with or without [[Charge pump enable input|chargepump]]) (this pin also present in X1<sup>4</sup>)
 
|}
 
|}
 
1) For detailed pin function and alternative functions in various modes, refer to [[IONI connector pinout]]
 
1) For detailed pin function and alternative functions in various modes, refer to [[IONI connector pinout]]
Line 153: Line 146:
 
3) This output can directly drive a 24V solenoid brake (max 500mA) if VCC is supplied by 24 volts. In such case, connect brake wires between MECH_BRAKE_OUT and VCC.
 
3) This output can directly drive a 24V solenoid brake (max 500mA) if VCC is supplied by 24 volts. In such case, connect brake wires between MECH_BRAKE_OUT and VCC.
  
4) The same pin is routed also to X1 connectors. Use only either ENABLE/STO2 pins of X4 ''or'' X1, not both.  
+
4) The same pin is routed also to X1 connectors. Use ENABLE/STO2 pins of only either X4 ''or'' X1, not both.  
  
 
{{damage|Connect X4 directly only to 3.3V or 5V logic systems. For 24V logic, see chapter below.}}
 
{{damage|Connect X4 directly only to 3.3V or 5V logic systems. For 24V logic, see chapter below.}}
Line 163: Line 156:
 
{{damage|Do now wire SimpleMotion V2 ports with [http://en.wikipedia.org/wiki/Ethernet_crossover_cable crossover RJ45 cables (see details)]. Always use straight/non-crossover patch cables. If unsure about what is the type of your RJ45 cable, don't use it.}}
 
{{damage|Do now wire SimpleMotion V2 ports with [http://en.wikipedia.org/wiki/Ethernet_crossover_cable crossover RJ45 cables (see details)]. Always use straight/non-crossover patch cables. If unsure about what is the type of your RJ45 cable, don't use it.}}
  
 +
==DIP Switch S1 settings==
 +
On board switch S1 controls the SM bus termination. Set switch 1 to ON position if the IONICUBE 1X devie is the only device in a SM bus OR if it's the last device in device chain. All other cases, leave it OFF (in other words, if IONICUBE is chained to multiple SM bus devices and it's not the last device of the chain).
 
==Using 24 Volt control signals==
 
==Using 24 Volt control signals==
As many industrial environments use 24V signaling for logic, interfacing IONICUBE 1X has been designed to accept these voltages with small adjustments.
+
As many industrial environments use 24V signaling for logic, interfacing IONICUBE 1X has been designed to accept these voltages with help of external circuits:
  
TODO. This section updated later.
+
*The GPOx outputs are NPN open collector type the pulling pin to GND when output is logic 1. GPO can be loaded up to same voltage level with logic supply voltage.
 +
**If 24V logic accepts such NPN open collector output, wire directly
 +
**If push/pull type output is needed, wire a pull-up resistor (i.e. 2200 Ohm or higher) between GPOx and 24V voltage
 +
*Inputs are routed directly to IONI input pins that accept up to 5V directly. To extend the range, add a resistor divider network to reduce the voltage to accepted level. I.e. on each pin:
 +
**470 Ohm resistor from GPIx to GND, and
 +
**2200 Ohm GPIx to user 24V input signal
 +
**That two-resistor circuit will reduce 24V level logic 1 to an acceptable ~4.2V level, while logic 0 will be ~0V.
  
 
==Dimensions and mounting==
 
==Dimensions and mounting==
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{{picturebox|Ionicube1x dims.png|caption=Dimensions and mounting hole locations}}.
 
{{picturebox|Ionicube1x dims.png|caption=Dimensions and mounting hole locations}}.
  
[[category:IONI user guide]]
+
[[Category:IONI_user_guide]]
[[category:IONICUBE]]
+
[[Category:IONICUBE]]

Latest revision as of 09:53, 4 January 2021

IONICUBE 1X connectors[edit | edit source]

X1.1 and X1.2
RJ45 connector with SimpleMotion V2 interface. For pinout, seeSimpleMotion V2 port.
X2
feedback device connector for motor
X3
9 pin wire terminal for HV DC bus supply, logic voltage supply, regenerative resistor and motor power output.
X4
Control and setpoint signal port. Contains also output for motor solenoid holding brake.
X5
Card-edge connectors for IONI drive

IONICUBE 1X connectors[edit | edit source]

Ionicube1x pinouts.png

Connector layout and naming


Ionicube1x wiring.png

Wiring overview. R is regenerative resistor and E is encoder. In minimum working connection, wire 5V voltage to ENABLE and STO2 inputs into X4 pins (these two signals allow drive to be operated). Note: STO2 accepts voltage from 4.5 to 25 VDC but other digital inputs, such as ENABLE only between 2.7 to 5.5VDC.

Legend[edit | edit source]

Color
Supply pin
Input pin
Output pin

X3 pinout[edit | edit source]

This is a wire terminal connector for power input and output

Pin number Signal name Usage
1 GND Ground
2 HV+ Motor power supply, HV DC bus (see IONI drive voltage range spec)
3 VCC 24V logic supply
4 PH1 (PHASE1) Motor phase 1 (see wiring table below)
5 PH2 (PHASE2) Motor phase 2 (see wiring table below)
6 PH3 (PHASE3) Motor phase 3 (see wiring table below)
7 PH4 (PHASE4) Motor phase 4 (see wiring table below)
8 REG Regenerative resistor output
9 GND Ground
Pin number Signal name AC/BLDC motor Brush DC motor Stepping motor
1 GND Ground for cable shield and an optional motor holding brake coil
4 PHASE1 U (some motors R) Armature + Coil A.1
5 PHASE2 V (some motors S) Armature - Coil A.2
6 PHASE3 W (some motors T) Armature - Coil B.1
7 PHASE4 Not connected Armature + Coil B.2

Motor & brake wiring schematics[edit | edit source]

Note: the images below are drawn for IONICUBE 4 axis version. IONICUBE 1X wiring is equivalent except there is no brake output in the X3. Brake output pin is located in X4.

Regenerative resistor[edit | edit source]

Regenerative resistor is optional and may be connected between REG and HV+ terminals. The on board transistor is capable of carrying max 10 Amp current on regenerative resistor, so minimum allowed resistance can be calculated from: Rmin=HVvoltage/10. I.e. with 48VDC HV supply, the minimum resistance is 48V/10A = 4.8 Ohms. Suggested resistor power capability is 20-100 W.

X2 pinout[edit | edit source]

X2 is the feedback device connector of motor

Pin # Pin name Electrical type (in most feedback device modes) Quadrature encoder SinCos encoder BiSS-C encoder SSI encoder AMS SSI encoder
Shell GND Earth/case
1 HALL_W Hall sensor digital input, phase W - - -
2 HALL_V Hall sensor digital input, phase V - - -
3 HALL_U Hall sensor digital input, phase U - - -
4 GND Encoder supply ground
5 B- Differential input B- Channel B- SinCos input B- - - -
6 B+ Differential input B+ Channel B+ SinCos input B+ - - -
7 A- Differential input A- Channel A- SinCos input A- - - -
8 A+ Differential input A+ Channel A+ SinCos input A+ - - -
9 5V_OUT Encoder supply 5V output
10 GND Encoder supply ground
11 GPI3 Axis negative direction end limit switch (optional). Normally closed (NC) switch is highly recommended for safety reasons.
Connect it between this pin and GND pin. Normally open (NO) switch can be used, and the switch polarity can be changed with Limit switch polarityLSP.
Clock/MA- Clock- CLK
12 GPI2 Axis positive direction end limit switch (optional).Normally closed (NC) switch is highly recommended for safety reasons.
Connect it between this pin and GND pin. Normally open (NO) switch can be used, and the switch polarity can be changed with Limit switch polarityLSP.
Clock/MA+ Clock+ CSn
13 GPI1 Axis home switch switch (optional). Normally closed (NC) switch is highly recommended for safety reasons.
Connect it between this pin and GND pin. Normally open (NO) switch can be used, and the switch polarity can be changed with Home switch or hard stop search direction (Home switch polarity)HMS.
DO
14 C- Differential input C- Index channel Z- Index channel Z+ Data/SLO- Data- -
15 C+ Differential input C+ Index channel Z+ Index channel Z+ Data/SLO+ Data+ -
Pin layout Female D-sub 15 connector as it appears from outside of drive. Note: counterpart (male) connector has mirrored pin layout if viewed from pin side, and same layout if viewed from soldering side.

D15 pinout.png

Examples of feedback device and switch wiring[edit | edit source]


X4 pinout[edit | edit source]

X4 is main control and setpoint signal port consisting Enable input signal, Fault output signal, pulse and direction/quadrature/PWM setpoint inputs and digital outputs for home switch status. X4 is directly wired to conform most common parallel port style pulse & direction CNC controllers.

Pin number in header Signal name Typical usage Signal name Typical usage
1 GND Ground 2 5V_OUT 5V output for optional external circuity
3 HSIN2 Depending on setpoint mode, can be either:
  • Direction signal of pulse train (in Pulse and direction setpoint mode)
  • Quadrature B channel (in quadrature setpoint mode)
  • PWM (in PWM and PWM+Dir setpoint modes)
4 HSIN1 Depending on setpoint mode, can be either:
5 ANAIN+ +/-10V analog setpoint input2 6 ANAIN- +/-10V analog setpoint input2
7 GPI2 Enable positive feed (also in X2)1 8 GPI1 Home switch input (also in X2)1
9 GPI4 Clear faults1 10 GPI3 Enable negative feed (also in X2)1
11 REGEN_OUT Regenerative resistor power switch state (redundant, IONICUBE 1X has internal power switch) 12 GPI5 Start homing1
13 MECH_BRAKE_OUT Mechanical holding brake output3 14 GPO5 Reserved for future use1
15 GPO4 Limit switch output 16 GPO3 Fault on any axis or E-stop (active low)1
17 GPO2 Tracking error warning1 18 GPO1 Servo ready1
19 STO2 Safe torque off input (this pin also present in X14) 20 ENABLE Enable drive (with or without chargepump) (this pin also present in X14)

1) For detailed pin function and alternative functions in various modes, refer to IONI connector pinout

2) Setpoint voltage is measured from the difference of voltage potentials between ANAIN+ and ANAIN-. Both ANAIN inputs must always lie within +/-12V from GND (meaning that controller's zero voltage reference, i.e. GND must be connected to the GND if drive to prevent voltage potentials from floating.

3) This output can directly drive a 24V solenoid brake (max 500mA) if VCC is supplied by 24 volts. In such case, connect brake wires between MECH_BRAKE_OUT and VCC.

4) The same pin is routed also to X1 connectors. Use ENABLE/STO2 pins of only either X4 or X1, not both.


X1 connector[edit | edit source]

X1 connectors are for SimpleMotion V2 bus which is used for drive configuration with Granity software and control over a multidrop capable serial data link. For pinout, see SimpleMotion V2 port.


DIP Switch S1 settings[edit | edit source]

On board switch S1 controls the SM bus termination. Set switch 1 to ON position if the IONICUBE 1X devie is the only device in a SM bus OR if it's the last device in device chain. All other cases, leave it OFF (in other words, if IONICUBE is chained to multiple SM bus devices and it's not the last device of the chain).

Using 24 Volt control signals[edit | edit source]

As many industrial environments use 24V signaling for logic, interfacing IONICUBE 1X has been designed to accept these voltages with help of external circuits:

  • The GPOx outputs are NPN open collector type the pulling pin to GND when output is logic 1. GPO can be loaded up to same voltage level with logic supply voltage.
    • If 24V logic accepts such NPN open collector output, wire directly
    • If push/pull type output is needed, wire a pull-up resistor (i.e. 2200 Ohm or higher) between GPOx and 24V voltage
  • Inputs are routed directly to IONI input pins that accept up to 5V directly. To extend the range, add a resistor divider network to reduce the voltage to accepted level. I.e. on each pin:
    • 470 Ohm resistor from GPIx to GND, and
    • 2200 Ohm GPIx to user 24V input signal
    • That two-resistor circuit will reduce 24V level logic 1 to an acceptable ~4.2V level, while logic 0 will be ~0V.

Dimensions and mounting[edit | edit source]

IONICUBE 1X can be mounted by screws to a base or with optional DIN rail clips to a standard DIN rail.

To mount in DIN rail, obtain 2 pcs of Phoenix Contact part number 1201578. Such part is available from many distributors including Digikey 277-2296-ND

Ionicube1x dims.png

Dimensions and mounting hole locations

.