In this topic Hide
The daA1600-60lc is available in the following variants:
Basler dart S-mount color cameras are not equipped with an IR cut filter. If you want to operate a Basler dart S-mount color camera with an IR cut filter, you must attach a lens with an integrated IR cut filter to the camera.
Specification | daA1600-60lc |
---|---|
Resolution |
1600 x 1200 |
Sensor Type |
e2v EV76C570 ACT Progressive scan CMOS Global shutter |
Optical Size |
1/1.8" |
Effective Sensor Diagonal |
9 mm |
Pixel Size (H x V) |
4.5 μm x 4.5 μm |
Frame Rate |
60 fps |
Mono / Color |
Color |
Pixel Formats |
See Pixel Format. |
Synchronization |
Via hardware trigger Via software trigger Via free run |
Exposure Time Control |
Programmable via the camera API |
Camera Power Requirements |
Nominal 5 VDC supplied via the camera module’s 28-pin FFC connector |
≈1.3 W (typical) @ 5 VDC |
|
I/O Lines |
1 input line (CC0) and 2 output lines (two bits on data lane X0) |
Lens Mount |
S-mount, CS-mount, without mount (bare board) |
Size (L x W x H) |
Bare board model: S-mount model: CS-mount model: |
Weight |
S-mount and CS-mount models: <15 g Bare board model: <5 g |
Conformity |
CE (includes RoHS), UL Listed, GenICam 2.4 (including PFNC 1.1 and SFNC 2.1) The EU Declaration of Conformity is available on the Basler website. |
Software |
Basler pylon Camera Software Suite (version 5.0.4 or higher) Available for Windows, Linux x86, Linux ARM, and macOS |
Accessories |
The spectral response curve excludes lens characteristics, light source characteristics, and IR cut filter characteristics.
To achieve best camera performance, Basler recommends using a dielectric IR cut filter.
The filter should transmit in a range from 400–≈700 nm, and it should cut off from ≈700–1100 nm.
Integrated IR Cut Filter (CS-Mount Variants Only)
Basler dart CS-mount color cameras are equipped with an IR cut filter. The filter is mounted in a filter holder inside the lens mount.
The IR cut filter has the following spectral characteristics:
Wavelength [nm] | Transmittance |
---|---|
420–600 | Tmin ≥ 90 %
T avg ≥ 92 % |
650 ± 10 | T = 50 % |
700–1000 | Tavg ≤ 1 % |
1000–1100 | Tavg ≤ 5 % |
Bare Board Variant (daA1600-60lm/lc only)
On daA1600-60lm/lc camera models, side-fill material (Loctite E1172A 15G) is injected beneath the sensor. The side-fill material is visible around the sensor. This material optimizes the mechanical robustness of the camera and does not impair camera operation.
S-Mount Variant
CS-Mount Variant
→ See Maximum Allowed Lens Intrusion.
→ See Stress Test Results.
Bare Board Variant | S-Mount and CS-Mount Variant | |
---|---|---|
Device temperature during operation | 0–75 °C (32–167 °F)a | 0–50 °C (32–122 °F)b |
Device temperature during storage | -20–80 °C (-4–176 °F) | -20–80 °C (-4–176 °F) |
Humidity | 20–80 %, relative, non-condensing | 20–80 %, relative, non-condensing |
Ambient temperature according to UL 60950-1 | max. 50 °C (122 °F) | max. 50 °C (122 °F) |
UL 60950-1 test conditions: no lens attached; no heat dissipation measures; ambient temperature kept at 50 °C (122 °F). |
aTemperature measured at the temperature measurement point, i.e., at the hottest point on the board. This point is significantly hotter than the other parts on the board.
bTemperature measured at the temperature measurement point, i.e., at the camera front.
→ See Providing Heat Dissipation (dart).
Danger
![]() |
Unapproved power supplies may cause electric shock.
Serious injury or death may occur.
|
Warning
![]() |
Unapproved power supplies may cause fire and burns.
|
Notice
You must supply camera and I/O power within the safe operating voltage ranges specified below.
Pin Name | Absolute Minimum | Absolute Maximum |
---|---|---|
VCC | -0.3 VDC | 6.5 VDC |
CC0+ CC0- |
4.2 VDC | |
I2C_SCL I2C_SDA I2C_ID |
3.6 VDC |
Pin Name | Voltage Type | Minimum | Nominal (Recommended) | Maximum |
---|---|---|---|---|
VCC | 4.5 VDC | 5.0 VDC | 5.5 VDC | |
CC0+ CC0- |
Common mode voltage | 0.2 VDC | - | 1.8 VDC |
Differential voltage | 0.1 VDC | - | - | |
I2C_SCL I2C_SDA I2C_ID |
Input low voltage | 0.0 VDC | 0.0 VDC | 1.0 VDC |
Input high voltage | 2.4 VDC | 3.3 VDC | 3.5 VDC |
Pin Name | Voltage Type | Minimum | Nominal (Recommended) | Maximum |
---|---|---|---|---|
X1-, X1+ X2-, X2+ X3-, X3+ X4-, X4+ XCLK-, XCLK+ |
Common mode voltage | 1.125 VDC | 1.25 VDC | 1.375 VDC |
Differential voltage | 0.247 VDC | - | 0.6 VDC |
Pin Name | Minimum | Maximum | Notes |
---|---|---|---|
XCLK | 12 MHz | 84 MHz | Selectable via control interface.
Settable in increments of 8. |
X0–X3 | 84 MBaud | 588 MBaud | Selectable via control interface. |
I2C_SCL | 0 kHz | 400 kHz | In the I²C-bus Specification and User Manual, this mode is called "fast-mode" with 400 kbit/s. |
For more information about the I/O lines, see the I/O Control section.
→ See BCON for LVDS Hardware Design Guide.
FFC Connector | 28-pin flat flex cable (FFC) connector. Provides connections for LVDS image transfer, input and output signals, and power supply. Standardized I²C lines are integrated, which are used for camera configuration via the Basler pylon Camera Software Suite. |
Status LED | Indicates operation:
|
The 28-pin connector on the camera is a flexible flat cable (FFC) connector by Hirose Electric Co. It is specifically designed for shielded and impedance-controlled flexible flat cables. However, standard flexible flat cables without a ground layer can also be inserted. They will make good electrical contact, but you may notice a high rate of bit errors. For more information, see the BCON for LVDS Hardware Design Guide.
The connector order code is Hirose FH41-28S-0.5SH(05).
Pin 1 Position
As shown below, pin 1 of the FFC connector is indicated by an arrow, and pin 28 is indicated by the number 28.
Pin Numbering and Assignments
Pin # (Camera Side) |
Pin Name | Pin # (System Side) |
Function | Notes |
---|---|---|---|---|
1 | GND | 28 | Power Supply | All GND pins, including the five shield GND contacts on the opposite side of the connector, must be connected to a common GND plane. Avoid long PCB traces, prefer direct vias. |
2 | VCC | 27 | Power Supply | Single camera supply voltage, 5 VDC nominal. Connect all pins. |
3 | VCC | 26 | Power Supply | |
4 | VCC | 25 | Power Supply | |
5 | GND | 24 | Power Supply | See note for pin 1 (camera side). |
6 | I2C_ID | 23 | Configuration Interface | I²C interface address selector. Connect to GND for an I²C slave address of 0x3C. Connect to 3.3 VDC for an I²C slave address of 0x3D. |
7 | I2C_SDA | 22 | Configuration Interface | I²C interface data line. A pull-up resistor to 3.3 VDC is required. Refer to the I²C-bus Specification and User Manual for the appropriate resistor value. Note that FFCs can have a significant line capacitance. |
8 | GND | 21 | Power Supply | See note for pin 1 (camera side). |
9 | I2C_SCL | 20 | Configuration Interface | I²C interface clock line. A pull-up resistor to 3.3 VDC is required. Refer to the I²C-bus Specification and User Manual for the appropriate resistor value. Note that FFCs can have a significant line capacitance. |
10 | GND | 19 | Power Supply | See note for pin 1 (camera side). |
11 | CC0- | 18 | Trigger and General Purpose Input | LVDS input to the camera, mainly as external trigger.
No termination resistor is required at the system side. In the pylon API, the input line is designated as Line 3. |
12 | CC0+ | 17 | ||
13 | GND | 16 | Power Supply | See note for pin 1 (camera side). |
14 | X3- | 15 | Serial Data Output | LVDS output data lane 3. Use differential routing. A 100 ohm termination resistor is required across the differential pair. |
15 | X3+ | 14 | ||
16 | GND | 13 | Power Supply | See note for pin 1 (camera side). |
17 | XCLK- | 12 | Serial Data Output | LVDS clock output. Use differential routing. A 100 ohm termination resistor is required across the differential pair. |
18 | XCLK+ | 11 | ||
19 | GND | 10 | Power Supply | See note for pin 1 (camera side). |
20 | X2- | 9 | Serial Data Output | LVDS output data lane 2. Use differential routing. A 100 ohm termination resistor is required across the differential pair. |
21 | X2+ | 8 | ||
22 | GND | 7 | Power Supply | See note for pin 1 (camera side). |
23 | X1- | 6 | Serial Data Output | LVDS output data lane 1. Use differential routing. A 100 ohm termination resistor is required across the differential pair. |
24 | X1+ | 5 | ||
25 | GND | 4 | Power Supply | See note for pin 1 (camera side). |
26 | X0- | 3 | Serial Data Output | LVDS output data lane 0. Use differential routing. A 100 ohm termination resistor is required across the differential pair. |
27 | X0+ | 2 | ||
28 | GND | 1 | Power Supply | See note for pin 1 (camera side). |
→ See Safety Instructions (dart).
→ See Camera Installation.
→ See the camera features section.