Used E by SIPLACE machine with CP14 head, 45,300 CPH, 120 feeder slots and support for 01005 to 6 × 6 mm components.
The ASM E by SIPLACE CP14 placement machine is a single-gantry SMT mounter configured with the 14-segment CP14 Collect & Place head. It is designed for reliable mid-speed placement of small surface-mount components, offering published performance of up to 45,300 components per hour.
The CP14 configuration is primarily intended for chip resistors, capacitors, diodes, transistors, arrays and small IC packages ranging from approximately 01005 to 6 × 6 mm. It should not be confused with the complete E by SIPLACE platform component range, which extends to larger components only when CP12/PP, CP6/PP or TH placement heads are installed.
GEEKVALUE supplies available used, inspected and refurbished E by SIPLACE machines according to the installed placement head, feeder tables, PCB conveyor, software version and equipment condition. Explore the complete ASM SIPLACE E Series to compare CP14, CP12, CP12/PP, CP6/PP and TH machine configurations.

E by SIPLACE was developed as a flexible all-round placement platform for the mid-speed production segment. Rather than using several fixed machine model numbers, the platform is mainly differentiated by the placement head installed on its single X/Y gantry.
An E by SIPLACE machine equipped with the CP14 head is optimized for fast and repeatable placement of small tape-fed components. Fourteen individually controlled nozzle segments collect components from the feeder area, inspect them through the digital vision system and place them onto the stationary PCB.
Single independently controlled placement gantry
One 14-segment CP14 Collect & Place head
Published placement speed up to 45,300 CPH
Component range from approximately 01005 to 6 × 6 mm
Maximum component height of approximately 4 mm
Published placement accuracy of approximately ±41 μm at 3 sigma
Up to 120 positions for standard 8 mm feeders
Two removable component tables
High-resolution digital component vision
Programmable placement-force control
PCB thickness support from approximately 0.3 to 4.5 mm
Optional long-board production up to approximately 1,200 × 460 mm
| Specification | Typical CP14 Machine Configuration |
|---|---|
| Machine platform | ASM E by SIPLACE |
| Common product description | E by SIPLACE CP14 placement machine |
| Machine type | Single-gantry mid-speed SMT placement machine |
| Number of gantries | 1 |
| Installed placement head | CP14 Collect & Place head |
| Nozzle positions | 14 individually controlled nozzle segments |
| Published placement speed | Up to approximately 45,300 CPH |
| Component range | Approximately 01005 to 6 × 6 mm |
| Maximum component height | Approximately 4 mm |
| Placement accuracy | Approximately ±41 μm at 3 sigma |
| Feeder capacity | Up to 120 positions based on 8 mm feeder-slot width |
| Component tables | Up to two removable component tables |
| PCB thickness | Approximately 0.3–4.5 mm |
| Maximum published PCB format | Up to approximately 1,200 × 460 mm with the Long Board Option |
| Machine dimensions | Approximately 1,460 × 1,730 mm, excluding component tables |
| Approximate machine weight | Approximately 1,850 kg for a representative single-sided configuration |
| Rated power | Approximately 1.8 kW |
| Compressed-air pressure | Approximately 5–10 bar |
| CP14 air consumption | Approximately 90 NL/min |
| Typical component supply | Smartfeeder E tape feeders and compatible component-supply options |
| Typical production role | Mid-speed placement of small standard SMD components |
Configuration notice: E by SIPLACE machines may have different placement heads, component tables, conveyors, software versions and optional long-board systems. Final machine capability must be confirmed from the actual equipment label, installed CP14 head, conveyor measurements and powered-on inspection.
The official machine platform is called E by SIPLACE. CP14 identifies the placement head installed on the machine rather than a completely separate machine chassis.
Used-equipment listings commonly use terms such as:
ASM E by SIPLACE CP14
SIPLACE E CP14 machine
ASM CP14 placement machine
E by SIPLACE CP14 chip mounter
Siemens E by SIPLACE CP14
These descriptions normally refer to an E by SIPLACE base machine equipped with a CP14 placement head.
Before quotation, confirm:
Complete machine-label photograph
Machine serial number
Manufacturing year
Installed placement-head label
CP14 head part and serial numbers
Machine-software version
Component-table configuration
Conveyor and Long Board Option
The CP14 uses fourteen nozzle segments arranged within a high-speed Collect & Place head. Rather than returning to the feeder area after each individual placement, the head can collect several components before moving to the PCB.
A typical CP14 placement cycle includes:
The head moves to the programmed feeder pickup positions.
Components are collected by the appropriate nozzle segments.
Each component is captured by the digital vision system.
Pickup offset and component rotation are calculated.
The head moves to the stationary PCB.
Components are placed at their programmed coordinates.
Vacuum and component monitoring verify the process.
Multiple components can be collected during one head cycle
Component position can be corrected before placement
Component rotation can be inspected and adjusted
Missing or incorrectly picked components can be detected
Head travel between feeders and PCB can be reduced
The PCB remains stationary during the placement process
Small components can be processed at consistent vision speed
Placement force can be programmed according to the component
The CP14 is designed primarily for small standard components. Its published range extends from approximately 01005 to 6 × 6 mm, with a maximum component height of approximately 4 mm.
01005 and 0201 chip resistors
Multilayer ceramic capacitors
Small diodes
SOT transistors
Resistor and capacitor arrays
Small-outline integrated circuits
Small CSP packages
Selected small BGA packages
LED components
Other compatible tape-fed SMD packages
The CP14 should not be selected for components larger than approximately 6 × 6 mm without a component-specific technical review. Larger ICs, connectors, tall devices and odd-shaped parts normally require another E by SIPLACE head configuration.
The complete E by SIPLACE platform can process components from approximately 01005 to 200 × 110 mm, but this range is achieved through several different placement heads.
| Placement Head | Published Component Range | Maximum Height | Published Speed | Typical Role |
|---|---|---|---|---|
| CP14 | 01005 to 6 × 6 mm | Approximately 4 mm | Up to 45,300 CPH | High-speed small-component placement |
| CP12 | 01005 to 18.7 × 18.7 mm | Approximately 7.5 mm | Up to 24,300 CPH | Small and medium component placement |
| CP12/PP | 01005 to approximately 45 × 98 mm | Approximately 19 mm | Up to 24,200 CPH | Flexible Collect & Place and Pick & Place production |
| CP6/PP | 0201 to approximately 45 × 98 mm | Approximately 19 mm | Up to 13,700 CPH | Flexible handling of larger IC packages |
| TH | 0201 to approximately 200 × 110 mm | Approximately 25 mm | Up to 5,200 CPH | Large and odd-shaped component placement |
A CP14-equipped machine cannot be advertised as supporting 200 × 110 mm components unless the machine also includes a compatible TH head configuration. The installed head determines the real component spectrum.
The published 45,300 CPH value describes the maximum CP14 placement performance under defined machine and component conditions. It should not be treated as guaranteed output for every PCB program.
Number of components placed on each PCB
Component feeder positions
Component tape widths
PCB dimensions and panel arrangement
Required component rotations
Number of nozzle types
Nozzle-change frequency
Component inspection requirements
Feeder indexing time
Pickup retries and rejection rate
Conveyor loading and unloading time
CP14 head and sleeve condition
Nozzle cleanliness and vacuum stability
Feeder calibration
Production-program optimization
A realistic cycle-time estimate should be calculated from the actual BOM, placement coordinates, feeder layout, PCB dimensions and target production output.
E by SIPLACE uses a high-resolution digital vision system to inspect each component before placement. Individual lighting configurations can be selected according to the component surface, shape and package structure.
Depending on the installed hardware and software, vision functions may include:
Component-presence verification
Pickup-position measurement
Component-rotation correction
Package-shape recognition
PCB fiducial recognition
Component teaching through image-recognition algorithms
Recognition of small components without reducing the vision speed
Bad-board and bad-panel handling
Production setup verification
The condition of the component camera, PCB camera, lighting units and vision calibration should be checked before purchasing a used machine.
The E by SIPLACE head system provides individually programmable placement-force control. This allows different component types to be assigned suitable placement conditions within the same PCB program.
Controlled placement force can help:
Reduce excessive pressure on small components
Prevent unnecessary disturbance of solder-paste deposits
Compensate for changes in component pickup height
Improve placement consistency on warped PCBs
Support delicate package and LED applications
Maintain repeatability across different product programs
Placement-force functions still depend on correct component definition, nozzle selection, PCB support and machine calibration.
E by SIPLACE uses linear motors, high-resolution scales and modern position-control systems for the placement gantry axes. The rigid machine chassis and linear-drive design are intended to maintain positioning accuracy over extended production periods.
Important areas to check on a used machine include:
X-axis and Y-axis movement
Linear-motor noise and vibration
Position encoder condition
Reference and homing operation
Axis-drive alarm history
Trailing cables and cable chains
Gantry alignment and calibration
Machine frame and levelling condition
An E by SIPLACE machine can provide up to 120 feeder positions when two component tables are installed and capacity is calculated using standard 8 mm feeder-slot width.
Wider feeders occupy multiple positions, so the actual number of physical feeders depends on the component tape-width combination.
Fast setup and removal of feeder modules
Offline preparation of the next product setup
Reduced product-change time
Feeder replacement during suitable production conditions
Stable feeder pickup positions
Support for Smartfeeder E and additional supply options
Component-table preparation away from the machine
Number of component tables included
Number of 8 mm feeders included
Quantity of 12 mm, 16 mm and wider feeders
Smartfeeder E part numbers
Feeder firmware and machine compatibility
Feeder calibration status
Tape-indexing and pickup performance
Component-table communication condition
Table wheels, docking pins and locks
Reel holders and waste-tape containers
Feeders and component tables should not be assumed to be included with every used machine. The quotation should list the machine, CP14 head, tables, feeders, nozzles and spare parts separately.
Smartfeeder E units are designed to present each component at a repeatable pickup position. Closed-loop feeder control and automatic calibration help maintain stable tape indexing.
Depending on feeder configuration, practical benefits may include:
Automatic feeder calibration
Closed-loop tape-position control
Hot-swappable feeder replacement
Stable component pickup positions
Reduced routine maintenance
Faster product setup
Improved material verification
Before using existing feeders with a purchased machine, confirm the feeder generation, interface, firmware and machine-software compatibility.
The E by SIPLACE platform can be configured for standard PCB production or extended long-board applications. Published platform data lists a maximum format of approximately 1,200 × 460 mm when the Long Board Option is installed.
PCB lengths above approximately 460 mm require the relevant long-board configuration. This capability should not be assigned automatically to every used E by SIPLACE machine.
Minimum PCB length and width
Maximum PCB or panel dimensions
PCB thickness
Maximum assembled-board weight
PCB transport direction
Fixed conveyor-rail position
Required production-line height
PCB edge-clearance requirement
Long Board Option requirement
Board support and warpage-control requirement
Interface with upstream and downstream equipment
Request actual conveyor photographs, measurements and a powered-on board-transport test before confirming PCB compatibility.
The CP14 configuration is best suited to production programs dominated by small standard tape-fed components.
Industrial control PCB assemblies
Automotive electronic modules
Consumer electronic products
Telecommunications equipment
LED lighting and control boards
Power-supply PCB assemblies
Medical electronic products
Small and medium-volume EMS production
High-mix products with frequent setup changes
Products requiring repeatable small-component placement
When the PCB contains many large ICs, connectors, tall components or odd-shaped parts, another E by SIPLACE head configuration or an additional flexible placement machine may be required.
ASM promoted the E by SIPLACE platform for Basic, Flex and Volume line arrangements. Each machine can contribute up to 120 feeder positions, while line capacity can be expanded by installing additional E by SIPLACE machines.
| Line Concept | Representative Machine Quantity | Published Maximum Speed | Maximum 8 mm Feeder Positions |
|---|---|---|---|
| E-Basic Line | 1 machine | Up to approximately 45,300 CPH | Up to 120 |
| E-Flex Line | 2 machines | Up to approximately 90,600 CPH | Up to 240 |
| E-Volume Line | 3 machines | Up to approximately 135,900 CPH | Up to 360 |
These line values assume suitable machine and head configurations. Actual output depends on component distribution, head type, feeder setup and complete production-line balance.
A CP14-equipped machine can be used as the small-component placement stage of a multi-machine E by SIPLACE line.
A representative line may include:
PCB loader
Solder paste printer
Solder paste inspection system
E by SIPLACE machine with CP14 head
E by SIPLACE machine with CP12/PP or TH head
Reflow oven
Automatic optical inspection system
PCB unloader
The CP14 machine places small resistors, capacitors and standard packages. The flexible E by SIPLACE machine then completes larger ICs, trays, connectors and special components.
The total line output is determined by its slowest process. A 45,300 CPH CP14 machine will not automatically produce that output when the flexible mounter, printer, conveyor, reflow oven or inspection system remains the primary bottleneck.
| Comparison | CP14 Machine Page | CP14 Placement Head Page |
|---|---|---|
| Primary subject | Complete E by SIPLACE placement machine | Replacement CP14 placement-head assembly |
| Main information | Machine, conveyor, feeders, software and production application | Head part number, condition, compatibility and repair matching |
| Search purpose | Purchasing or replacing a complete SMT machine | Purchasing or repairing a CP14 head |
| Required verification | Machine label, head, tables, conveyor and software | Original head label, P/N, installed machine and photographs |
For replacement-head requirements, review the ASM E by SIPLACE CP14 placement head P/N 03109887. The part number should still be confirmed from the original head label before ordering.
A used CP14 machine should be tested as a complete placement system. A clean exterior or successful power-on does not confirm stable placement accuracy and production output.
Complete E by SIPLACE machine label
Machine item and serial numbers
Manufacturing year
Total operating hours
Total placement counter
Original factory configuration
Current installed configuration
Station-software version
Programming-software compatibility
CP14 head label and part number
Head serial number
Head operating hours
Head placement counter
Nozzle magazine configuration
Installed component camera
Maintenance and repair history
Calibration records
X-axis and Y-axis movement
Noise and vibration during acceleration
Machine homing and reference operation
Linear-motor condition
Encoder and high-resolution scale condition
Axis-drive alarm history
Cable-chain and trailing-cable condition
Gantry alignment and calibration
All fourteen nozzle segments
Nozzle-sleeve wear
Segment movement and rotation
Z-axis movement
Vacuum pressure and leakage
Component-sensor operation
Placement-force control
Nozzle-changer operation
Pickup and placement repeatability
Head temperature and abnormal noise
Component-camera image quality
PCB-camera image quality
Lighting-level operation
Component-shape recognition
Small-component recognition
Fiducial recognition
Pickup-position correction
Vision-rejection function
Camera calibration status
Automatic conveyor-width adjustment
Conveyor belts and pulleys
PCB entrance and exit sensors
PCB clamping and support
Transport direction
Long Board Option where required
Maximum measured PCB dimensions
Communication with surrounding equipment
Number of included component tables
Number and type of included feeders
Smartfeeder E part numbers
Feeder indexing and pickup performance
Automatic feeder calibration
Component-table docking and locking condition
Communication-unit operation
Table wheels and mechanical condition
Reel holders and waste-tape containers
Machine computer and monitor
Machine-software backup
Product and configuration files
Nozzles and nozzle magazines
Component tables
Feeders and reel holders
Transformer or voltage-conversion equipment
Operating and maintenance manuals
Calibration tools
Included spare parts
A complete inspection video should show machine startup, homing, gantry movement, all fourteen CP14 nozzle segments, feeder pickup, component recognition, nozzle changing, PCB transport and an actual sample placement program.
Long-term production reliability depends on preventive maintenance of the CP14 head, linear-drive system, vision components and feeder interfaces.
CP14 nozzle segments
Nozzle sleeves and nozzle holders
Nozzles and nozzle magazines
DP motors and head-drive components
Head control and power electronics
Vacuum valves, filters and generators
Component and placement-force sensors
Component camera and lighting modules
PCB camera and fiducial lighting
Linear motors and high-resolution scales
Axis drives and control boards
Trailing cables and cable chains
Cooling fans and machine filters
Conveyor belts, pulleys and sensors
Component-table docking interfaces
Smartfeeder E modules
Machine computer and storage devices
Recommended maintenance includes head cleaning, nozzle inspection, vacuum testing, component-camera calibration, PCB-camera calibration, feeder calibration, conveyor adjustment, axis inspection, air-filter replacement and verification of software backups.
A used E by SIPLACE CP14 machine may be suitable for manufacturers that require reliable mid-speed placement of small components or need to replace equipment in an established E by SIPLACE production line.
The machine may be practical when:
The PCB is dominated by small tape-fed components
A production rate around the CP14 mid-speed class is sufficient
The factory requires up to 120 feeder positions
The factory already owns compatible Smartfeeder E units
The existing line uses E by SIPLACE equipment
Existing technicians understand the E platform
CP14 spare parts and repair support are available
A failed E by SIPLACE machine must be replaced
A used-machine investment is preferred over a new platform
A CP12/PP, CP6/PP or TH configuration may be more suitable when the PCB contains many components larger than 6 × 6 mm, tall devices, trays, connectors or odd-shaped parts.
Required machine quantity
Preferred manufacturing year
Preferred machine condition
Confirmation that a CP14 head is required
Target production output
Smallest component package
Largest component dimensions
Maximum component height
Required placement accuracy
PCB dimensions and thickness
Long Board Option requirement
Required feeder quantities
Required feeder tape widths
Existing Smartfeeder E inventory
Existing E by SIPLACE line configuration
Factory voltage and frequency
Compressed-air availability
Destination country
Required delivery schedule
Customers who need a cycle-time assessment may send the PCB BOM, placement file, component list, panel dimensions and target hourly output for preliminary machine matching.
It is an E by SIPLACE single-gantry SMT machine equipped with a 14-segment CP14 Collect & Place head for mid-speed placement of small standard components.
CP14 identifies the placement head. The complete machine platform is officially called E by SIPLACE.
The published CP14 placement speed is up to approximately 45,300 components per hour. Actual production output depends on the PCB program, feeder setup and machine condition.
The published CP14 component range is approximately 01005 to 6 × 6 mm, with a maximum component height of approximately 4 mm.
No. The 200 × 110 mm capability belongs to the complete E by SIPLACE platform when a suitable TH head is installed. It is not the maximum range of the CP14 head.
The published CP14 placement accuracy is approximately ±41 μm at 3 sigma.
An E by SIPLACE machine can provide up to 120 positions based on standard 8 mm feeder-slot width when two component tables are installed.
Yes. The E by SIPLACE component tables are designed to support Smartfeeder E units and compatible component-supply options.
With the correct Long Board Option, the published platform range extends up to approximately 1,200 × 460 mm. The installed conveyor must be verified on the actual machine.
CP14 provides higher small-component placement speed and supports components up to approximately 6 × 6 mm. CP12 is slower but extends the component range to approximately 18.7 × 18.7 mm.
CP14 is optimized for high-speed placement of small components. CP12/PP provides broader mixed-component capability and can switch between Collect & Place and Pick & Place operating modes.
Not automatically. Component tables, Smartfeeder E units, nozzles, reel holders and spare parts may be included or quoted separately.
Test the gantry, CP14 head, all fourteen nozzle segments, component camera, PCB camera, vacuum system, placement-force control, nozzle changer, conveyor, component tables, feeders and machine software.
Send your PCB dimensions, smallest and largest components, target output, feeder requirement, machine condition and destination country. GEEKVALUE will check available E by SIPLACE CP14 machines and confirm the machine label, manufacturing year, head condition, conveyor, component tables, feeders, software, included accessories and inspection scope.
View the complete ASM SIPLACE E Series machine range, review the CP14 replacement placement head, or explore compatible SIPLACE feeders and SMT nozzles.
If you are not sure whether this product matches your machine, send us the model, label photo or old part picture for checking.