Warning
Please read this instruction sheet carefully before use.
DVP-SLIM is an OPEN-TYPE device and therefore should be installed in an enclosure free of airborne dust, humidity,
electric shock and vibration. The enclosure should prevent non-maintenance staff from operating the device (e.g. key
or specific tools are required to open the enclosure) in case danger and damage on the device may occur.
DO NOT connect input AC power supply to any of the I/O terminals; otherwise serious damage may occur. Check all
the wiring again before switching on the power. DO NOT touch any terminal when the power is switched on.
Introduction
Thank you for choosing Delta DVP-Slim series programmable logic controller. DVP-Slim digital I/O extension unit offers 6 ~
16 points, and the maximum digital I/O extension points (including the MPU) can reach 256 points. In addition, maximum 8
additional special modules (AD/DA/PT/TC/XA/PU) can be extended to DVP-Slim series extension unit.
Product Profile & Outline
1
POWER, L.V (low voltage) indicator
2
Model name
3
Extension unit fixing clip
4
I/O terminals
5
DIN rail clip
6
Extension unit positioning hole
7
Nameplate
8
Extension unit fixing clip
9
DIN rail (35mm)
EXTENSION
PORT
60
8
9
10
7
5 6
25 .2 0
9
0
.
0
0
3
.
0
0
3
1
2
3
POWER
D
V
P
-
L.V
Connection port for extension unit
3
.
0
0
9
0
.
0
0
65
60
25 .20
2
7
3
3
1
44
POWER
L.V
EXTENSION
PORT
D
V
P
-
Model Information
Input Output
Model name
Power
supply
Points
Type Points
Type
Dimension (mm) Outline
DVP08SP11R 4 4
DVP16SP11R 8 8
Relay
DVP08SP11T 4 4
DVP16SP11T 8 8
Transistor
(Sink)
DVP16SP11TS
8
DC Type
Sink/Source
8
Transistor
(Source)
DVP08SM10N 8 100 ~ 120V AC
0
DVP08SM11N 8 0
DVP16SM11N 16 0
N/A
DVP08SN11R 0 8
DVP06SN11R 0 6
Relay
DVP08SN11T
24V DC
0
DC Type
Sink/Source
8 Transistor
25.2
90 60
ENGLISH
Specifications
Electrical Specifications
Model
Item
08SM11N
08SM10N
DVP16SM11N 08SN11R/T 08SP11R/T 16SP11R/T DVP16SP11TS 06SN11R
Power supply voltage 24V DC (-15%~20%) (with DC input polarity reverse protection)
Motion specification Within 5ms of the momentary power loss, the device will keep on operating
Power consumption 1W 2W 1.5W 1.5W 2W 2W 1.5W
Insulation resistance > 5MΩ (all I/O point-to-ground: 500V DC)
Noise immunity
ESD (IEC 61131-2, IEC 61000-4-2): 8KV Air Discharge
EFT (IEC 61131-2, IEC 61000-4-4): Power Line: 2KV, Digital I/O: 1KV,
Analog & Communication I/O: 1KV
Damped-Oscillatory Wave: Power Line: 1KV, Digital I/O: 1KV
RS (IEC 61131-2, IEC 61000-4-3): 26MHz ~ 1GHz, 10V/m
Earth
The diameter of grounding wire shall not be less than that of L, N terminal of the power. When many PLCs
are in use at the same time, please make sure every PLC is properly grounded.
Operation/storage
environment
Operation: 0°C ~ 55°C (temperature), 50% ~ 95% (humidity), pollution degree 2
Storage: -25°C ~ 70°C (temperature), 5% ~ 95% humidity
Shock/vibration
immunity
International standards: IEC61131-2, IEC 68-2-6 (TEST Fc)/IEC61131-2 & IEC 68-2-27 (TEST Ea)
Weight (g) 162 / 141 146 154 / 146 141 / 136 162 / 154 151 200
I/O Point Specifications
Input Point
Input point type DC AC
Input type DC (Sink or Source) -
Input resistance - 19Kohm/50Hz 16Kohm/60Hz
Input current/voltage
24V DC 5mA
85 ~ 132V AC, 50 ~ 60Hz
9.2mA ,110V AC/60Hz
Off On: more than 16.5V DC More than 79V AC
Active level
On Off: less than 8V DC Less than 30V AC
Response time
Approx. 10ms, 0 ~ 15ms adjustable from D1020 and
D1021
Off On < 15ms
On Off < 20ms
Circuit
isolation/operation
instruction
By photocoupler / LED On
Output Point
Output type Relay-R Relay-R (*1) Transistor-T (Sink) Transistor-T (Source)
Current specification
1.5A/1 point (5A/COM) 6A/1 point
55°C 0.1A/1 point
50°C 0.15A/1 point
45°C 0.2A/1 point
40°C 0.3A/1 point (2A/COM)
55°C 0.3A/1 point
(2A/COM)
Voltage specification < 250V AC, 30V DC < 250V AC , 30V DC 30V DC 30V DC
75VA (inductive) 240VA (inductive)
Maximum load
90W (resistive) 150W (resistive)
9W 9W
Response time Approx. 10ms Approx. 10ms
Off On 15us
On Off 25us
Off On 15us
On Off 25us
*1: Only applicable in DVP06SN11R.
Installation & Wiring
Terminals of DVP-Slim
DVP08SM11N DVP08SM10N DVP16SM11N
DVP08SN11R
DVP08SN11T
DVP08SP11R
DVP08SP11T
DVP16SP11R DVP16SP11TS DVP06SN11R
S/S
X0
X2
X5
X6
X7
X3
X1
X4
COM
X0
X2
X5
X6
X7
X3
X1
X4
S/S
X0
X2
X3
X1
S/S
X10
X12
X13
X11
X14
X15
X16
X4
X5
X6
X7
X17
C0
Y0
Y2
Y5
Y6
Y7
Y3
Y1
Y4
S/S
X0
X2
X3
X1
C0
Y0
Y1
C2
C1
Y2
C3
Y3
S/S
X0
X2
X3
X1
C0
Y0
Y2
Y3
Y1
Y4
Y5
Y6
X4
X6
X7
X5
Y7
S/S
X0
X2
X3
X1
UP
Y0
Y2
Y3
Y1
Y4
Y5
Y6
X4
X5
X6
X7
Y7
ZP
C0
Y0
C1
C2
Y2
Y1
C3
Y3
C4
C5
Y5
Y4
Connection
Step 1 Screw open the side cover of the extension unit,
and you will see the connection port.
Step 2 Lift the fixing clip by the screwdriver.
Step 3 Adjust the positioning hole of the MPU and the
extension unit. Meet the connection port on the MPU with
the extension unit to tightly connect the two.
Step 4 Fasten the fixing clip on the extension unit to
complete the connection.
Installation & Wiring
Install the PLC in an enclosure with sufficient space around it to allow heat dissipation (as shown in the figure below).
DVP
MPU
D
D
DD
How to install DIN rail
DVP-PLC can be secured to a cabinet by using the DIN rail of 35mm in height and
7.5mm in depth. W hen mounting PLC to the DIN rail, be sure to use the end bracket to
stop any side-to-side movement of the PLC and reduce the chance of wires being
loosen. A small retaining clip is at the bottom
of the PLC. To secure PLC to the DIN rail,
place the clip onto the rail and gently push it up. To remove it, pull the retaining clip
down and gently remove the PLC from the DIN rail.
22-16AWG
< 1.5mm
Wiring
1. Use 22-16AWG (1.5mm) single or multiple core wire on I/O wiring terminals. The
specification of the terminal is shown in the figure on the left hand side. The PLC
terminal screws shall be tightened to 1.95kg-cm (1.7 in-lbs). Use 65/75°C copper
wires only.
2. DO NOT place the I/O signal wires and power supply wire in the same wiring duct.
Notes
DO NOT install PLC in an environment with
Dust, smoke, metallic debris, corrosive or flammable gas
High temperature, humidity
Direct shock and vibration
During the engineering
1. DO NOT drop tiny metallic conductor into the PLC when screwing and wiring.
2. There should be a margin of more than 50mm between the PLC and other control devices, and the PLC should be
placed away from high voltage wire and power equipment.
Arrangement of I/O Points
No matter the MPU with how many points you are using, the input point No. of the first connected extension unit has to
start from X20 and output point No. from Y20. The MPU is able to connect to maximum 14 digital extension units. The
connection of MPU and extension units is demonstrated in the figure below.
PLC Model
Input
points
Output
points
Input point No. Output point No.
MPU SS/SA/SX/SC 8 4/6 X0 ~ X7, X10, X11
Y0 ~ Y5 , X10, X11
EXT1 16SP11T 8 8 X20 ~ X27 Y20 ~ Y27
EXT2 08SM11N 8 0 X30 ~ X37 -
EXT3 06SN11R 0 6 - Y30 ~ Y35
MPU EXT1 EXT2 EXT3 EXT4
EXT4 08SP11R 4 4 X40 ~ X43 Y40 ~ Y43
The 3
rd
extension module 06SN11R will be regarded as 8-point output. The 2 output points of bigger No. will have no
actual corresponding output points.
The 4
th
extension module 08SP11R will be regarded as 8-point input/8-point output. The 4 input points and 4 output
points of bigger No. will have no actual corresponding input/output points. Therefore, it is suggested that they placed in
the end of the series connection to make the No. of I/I points continuous.
Input Point Wiring & Specification
There are two types of signals at input points, DC and AC, and there are two types of DC inputs, Sink and Source. The
wiring are as follows.
Sink Mode
+24V 0V
DC Power Supply
S/S X0 X1 X2
Sink mode
Source Mode
+24V 0V
DC Powe r Supply
S/S X0 X1 X 2
Source mode
AC Wiring:
Wiring Loop 110V AC Input Specification
Input voltage 85 ~ 132V AC, 50 ~ 60Hz
Input resistance 19Kohm/50 Hz, 16Kohm/60Hz
Input current 9.2mA 110V AC/60Hz
On/Off voltage level 79V 3.8mA/30V 2.5mA
Response time 15ms
85 ~13 2VAC
50 /60 Hz
COM X0 X1 X2
DVP 08SM10 N
Pr ox.
Se nso r
Circuit isolation/operation instruction By photocoupler / LED On
Relay Output Wiring Circuit (Sink):
1
DO NOT wire empty terminal •
2
Fuse
3
Reverse current protection diode*1
4
Manual exclusive output*2
5
Emergency stop: by external switch
6
Surge absorber*3
7
Inductive load
8
Incandescent light (resistive load)
9
DC power supply
MC2MC1
9
10
5 2
3 7
8
1
6
7
2
5 4
MC2 MC1
AC power supply
*1: There is no internal protection circuit in the output relay of the PLC; therefore when activating an inductive load, we
suggest you parallely connect a reverse current protection diode to extend the life of the contact.
- The diode has to be able to endure max. 5 ~ 10 times of load voltage.
- The positive current of the diode has to be bigger than load current.
*2: Manual exclusive output uses external circuit and forms an interlock, together with the PLC internal program, to ensure
safety protection in case of any unexpected errors.
*3: There is no internal protection circuit in the output relay of the PLC; therefore when activating an inductive load, we
suggest you parallely connect a surge absorber (0.1uF + “100ohm to 120ohm”) to reduce the noise on AC load and
extend the life of the contact.
Transistor Output Wiring Circuit (Sink):
1
DO NOT wire empty terminal •
2
Emergency stop
3
Fuse
4
Manual exclusive output*1
5
DC power supply
6
Incandescent light (resistive load)
7
Reverse current protection diode*2
8
Inductive load
MC2MC1
5 7 8
1
6
6
4
MC2
MC1
2
3
3
9
9
Resistive load
*1: Manual exclusive output uses external circuit and forms an interlock, together with the PLC internal program, to
ensure safety protection in case of any unexpected errors.
*2: Use a zener diode (39V) in the PLC to protect the transistor output. When activating inductive load, we sugget you
parallely connect a reverse current protection diode.
Transistor Output Wiring Loop (Source):
1
Y6,Y7 (refer to other wiring methods)
2
Emergency stop
3
Fuse
4
Manual exclusive output*1
5
DC power supply
6
Incandescent light (resistive load)
7
Reverse current protection diode*2
8
Inductive load
MC2MC1
5
7
8
6
6
4
MC2
MC1
2
3
3
9
1
9
Resistive load
*1: Manual exclusive output uses external circuit and forms an interlock, together with the PLC internal program, to
ensure safety protection in case of any unexpected errors.
*2: Use a zener diode (39V) in the PLC to protect the transistor output. When activating inductive load, we sugget you
parallely connect a reverse current protection diode.
(OPEN TYPE)
DVP-SLIM DVP-SLIM 6 ~ 16
256 (AD/DA/PT/TC/XA/PU) 8
1
2
3
4
5
DIN
6
7
8
9
DIN (35mm)
EXTENSION
PORT
60
9
10
7
5 6
25 .20
9
0
.
0
0
3
.
0
0
3
1
2
3
POWER
D
V
P
-
L.V
3
.
0
0
9
0
.
0
0
65
60
25 .20
2
7
3
3
1
44
POWER
L.V
EXTENSION
PORT
D
V
P
-
(mm)
DVP08SP11R 4 4
DVP16SP11R 8 8
DVP08SP11T 4 4
DVP16SP11T 8 8
(Sink)
DVP16SP11TS 8
DC Type
Sink/Source
8
(Source)
DVP08SM10N 8 100 ~ 120V AC 0
DVP08SM11N 8 0
DVP16SM11N 16 0
DVP08SN11R 0 8
DVP06SN11R 0 6
DVP08SN11T
24V DC
0
DC Type
Sink/Source
8
25.2
90
60
08SM11N
08SM10N
DVP16SM11N
08SN11R/T 08SP11R/T 16SP11R/T DVP16SP11TS
06SN11R
24V DC (-15% ~ 20%)
5ms
1W 2W 1.5W 1.5W 2W 2W 1.5W
5 MΩ 500V DC
ESD (IEC 61131-2, IEC 61000-4-2): 8KV Air Discharge
EFT (IEC 61131-2, IEC 61000-4-4): Power Line: 2KV, Digital I/O: 1KV,
Analog & Communication I/O: 1KV
Damped-Oscillatory Wave: Power Line: 1KV, Digital I/O: 1KV
RS (IEC 61131-2, IEC 61000-4-3): 26MHz ~ 1GHz, 10V/m
L, N PLC
0°C ~ 55°C 50% ~ 95% 2
-25°C ~ 70°C 5% ~ 95%
IEC61131-2, IEC 68-2-6 (TEST Fc)/ I EC61131-2 & IEC 68-2-27 (TEST Ea)
(g) 162 / 141 146 154 / 146 141 / 136 162 / 154 151 200
Sink Source
-
- 19Kohm/50Hz 16Kohm/60Hz
24V DC 5mA
85~132VAC 50~60Hz
9.2mA 110VAC/60Hz
Off → On 16.5V DC 79V AC
On → Off 8 V DC 30V AC
10ms D1020 D1021 0 ~ 15ms
Off On < 15ms
On Off < 20ms
/ LED On
-R -R (*1) -T (Sink) -T (Source)
1.5A/1 (5A/COM)
6A/1 point
55°C 0.1A/1
50°C 0.15A/1
45°C 0.2A/1
40°C 0.3A/1 (2A/COM)
55°C 0.3A/1 (2A/COM)
250V AC, 30V DC 250V AC , 30V DC
30V DC 30V DC
75VA 240VA
90W 150W
9W 9W
10ms 10ms
Off → On 15us
On → Off 25us
Off → On 15us
On → Off 25us
*1: 06SN11R