Micro Technic Power Supply 1800 Series User Manual

MICRONIX PC/104  
POWER SUPPLY  
PV-1700, 1800 SERIES  
20W Power Supply including GSM/GPRS modem, analogue  
and digital I/O channels  
User Manual  
&
Installation Guide  
Ver. 1.2  
DOC: M5258DM  
Micro Technic A-S • Denmark •  
Tel. +45 6615 3000 • Fax +45 6615 3077  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
General information  
Ordering codes  
Options  
Power  
Supply  
Analog  
inputs  
Digital  
inputs  
Digital  
outputs  
Ordering no  
Model no  
Modem  
RS232  
-S  
-
016.104.138  
016.104.139  
PV-1700 -1  
PV-1700 -2  
PV-1700 -3  
PV-1700 -4  
PV-1700 -5  
PV-1700A -1  
PV-1700A -2  
PV-1700A -3  
PV-1700A -4  
PV-1700A -5  
PV-1720  
016.104.140  
016.104.142  
016.104.144  
016.104.146  
016.104.141  
016.104.143  
016.104.145  
016.104.157  
x
x
x
x
x
x
x
x
016.104.148  
016.104.150  
016.104.152  
016.104.133  
016.104.155  
016.104.149  
016.104.151  
016.104.153  
016.104.154  
016.104.156  
x
016.104.128  
016.104.157  
016.104.159  
016.104.127  
016.104.158  
016.104.087  
x
x
x
x
x
x
PV-1720A  
PV-1730  
016.104.088  
016.104.115  
016.104.116  
016.104.117  
016.104.101  
016.104.160  
016.104.161  
016.104.162  
016.104.124  
016.104.114  
PV-1800 -1  
PV-1800 -2  
PV-1800 -3  
PV-1800 -4  
PV-1800 -5  
PV-1800A -1  
PV-1800A -2  
PV-1800A -3  
PV-1800A -4  
PV-1800A -5  
PV-1820  
x
x
x
x
x
x
x
x
x
x
x
016.104.163  
016.104.118  
016.104.119  
016.104.120  
016.104.121  
016.104.164  
016.104.165  
016.104.166  
016.104.167  
016.104.168  
016.104.089  
016.104.123  
016.104.096  
016.104.106  
016.104.102  
016.104.169  
016.104.100  
016.104.170  
x
x
x
x
x
x
x
x
x
x
PV-1820A  
PV-1830  
PV-1830A  
-S = Stack-through PC/104 connector  
Analogue configurations  
PV-1700-S, PV-1700A-S, PV-1800-S and PV-1800A-S are available with different analogue  
configurations.  
The configuration is indicated by a digit following the model number, e.g. PV-1800-S-1. Possible  
configurations are available:  
Digit  
-1  
-2  
Configuration  
8AI: AI0-7 = 0-2.5V  
8AI: AI0-7 = 0-5.0V  
-3  
-4  
-5  
8AI: AI0-7 = 0-10.0V  
8AI: AI0-7 = 0-20.0mA  
8AI: AI0-3 = 0-2.5V, AI4-7 = 0-20mA  
Page 3 / 21  
 
Accessories  
These accessories must be ordered separately if needed.  
Model no  
Ordering code Description  
GSM cable  
126.033.000  
RG136 cable with MMCX-SMA MALE 140mm  
GSM Antenna 060.302.001  
GSM antenna with SMA connector  
CM-2  
CDB-9M  
425.104.001  
425.104.002  
Mains cable with one crimp connector mating KL1, 30cm  
Cable with one DSUB9 male and one 10pin IDC-connector, 30cm  
Used for connecting RS232.  
CDB-9F  
425.104.003  
Cable with one DSUB9 female and one 10pin IDC-connector, 30cm  
Used for connecting Ain, Din, Dout and Modem AUX.  
Page 4 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Description  
The PV-1800, the fully equipped model, offers the following features:  
a PC/104 20W power supply +5V, 4A.  
a dual band GSM/GPRS modem (Sony Ericsson GM47)  
8 isolated analogue inputs, 12 bit  
8 digital inputs, opto-isolated  
7 digital outputs, opto-isolated  
one RS232 serial port  
non-isolated simple I/O’s.  
Block diagram  
10  
9
8
7
6
5
4
3
2
IO1  
IO2  
IO3  
IO4  
ADC1  
ADC2  
ADC3  
DAC  
1
GND  
1
2
3
4
5
6
7
8
3
5
6
Mains  
DTR  
TxD  
RTS  
COM_A COM_B Regs  
9
2
8
7
4
1
CD  
DSR  
RxD  
CTS  
GND  
IRQ_A  
IRQ_B  
10  
9
8
7
6
5
4
3
2
3.3V isol.  
AI0  
AI1  
AI2  
AI3  
AI4  
AI5  
AI6  
AI7  
8 X 3.32K  
1
2
3
4
5
6
7
8
9
DI0 (Counter)  
DI1 (Counter)  
DI2  
DI3  
DI4  
DI5  
DI6  
DI7  
Common  
1
GND  
10  
9
8
7
6
5
4
3
2
Switcher off  
UPS status 1  
UPS status 2  
+5V  
UPS PWR off  
*
*
*
*
GND  
9
1
2
3
4
5
6
7
8
+Vext  
DO0  
DO1  
DO2  
DO3  
DO4  
DO5  
DO6  
-Vext  
1
* = Do not connect, internal factory use.  
PC/104 Bus  
All models, except A-versions, has an onboard DC/DC converter that converts the incoming mains  
(+8-35V DC) to +5V. This power supply delivers +5V, up to 4A, to the module and to the PC/104  
bus. A mains fuse F2 (1.6A) is placed on the rear side of the PCB, near KL1. In A-versions, where  
the DC/DC-converter is omitted, the module receives its power from the PC/104 bus.  
The GSM modem is placed on the top side of the PCB while the SIM card connector is placed on  
the rear side. The locking mechanism is indicated on the top of the SIM card holder. The connector  
for the antenna is placed on the GSM modem itself. The base address of the registers and COM  
ports, and IRQs for the modem and the COM port on CN6, are set by two jumper blocks.  
The analogue section (PV-1800, PV1700 only) is available in different configurations including  
pure voltage inputs (0-2.5V, 0-5V and 0-10V), pure current inputs (0-20mA) and with mixed inputs  
(0-2.5V and 0-20mA). The configuration must be decided when ordering – see section ordering  
codes.  
Page 5 / 21  
 
The digital I/O section is found on all models except PV-1830 and PV-1730 versions.  
The digital inputs are bipolar isolated with a max. input voltage of +/- 30V.  
There are 7 isolated digital P-channel outputs each capable of driving up to 0.5A. The load current  
must be supplied from an external voltage source not exceeding 30V.  
The UPS connector contains control signals that can be used with external UPS circuitry.  
Connectors  
The PV-1800 is equipped with several I/O connectors:  
One 2 pole pin header (KL1) for mains power in.  
One MMCX connector for GSM antenna.  
One 10-way box header (CN3) with non-isolated simple I/Os.  
One SIM Card connector (CN9) placed one the rear side of the PCB.  
One 10-way box header (CN1) for digital inputs.  
One 10-way box header (CN2) for digital outputs.  
One 10-way box header (CN5) for analogue inputs.  
One 10-way box header (CN6) for RS232.  
One PC/104 connector (CN8) for bus interface.  
Furthermore, there are 10 connection pads/holes (CN7) for special UPS functions.  
Modem Aux Analog Inputs  
MMCX connector  
for GSM antena  
1
2
3
4
5
6
Address  
setting  
COM_A COM_B Regs  
IRQ_A  
IRQ_B  
IRQ setting  
PC/104 connector  
UPS  
Pin numbers of the box headers are shown in this schematic.  
Page 6 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Topview of box header  
Power Supply  
The on-board power supply consists of a synchronous step-down switching regulator with an  
efficiency of 85-95%, depending on input voltage and load current. At nominal input voltage (24V  
DC) and a load current of 2A the efficiency is 92%. A green status LED, placed on the rear side of  
the PCB, is on when the +5V is present.  
+
24V DC  
-
The connector for the power input is a 2 pole pin header from Molex. The mating part for this  
connector is Molex 10-17-3020 with 2 crimp terminals – Molex 2478.  
Modem  
The modem unit used in the PV-18xx module is a Sony Ericsson GM47 which is a GSM dual band  
product for 900/1800 MHz. The unit is placed in a 60pin socket and secured by two M2 screws and  
nuts.  
Modem status LED  
A yellow status LED is connected to the modem. This LED is placed on the rear side of the PCB.  
The LED has this function:  
Modem status  
Modem LED Status  
Off  
Modem off  
On, steady  
On, flashing  
Power on, not connected to network  
Power on, connected to network  
Setting up the module  
All communication between the modem and the CPU is done through an on-board 16C550  
compatible UART. The COM port and the IRQ used for the modem are set by two jumper blocks.  
The address is set by one to three jumpers in positions 1 to 3 in section COM_A.  
The table shows how different COM ports can be configured.  
Page 7 / 21  
 
ST1  
2
0
0
1
1
0
0
1
Base address  
COM_A  
Disabled  
2C8  
1
0
0
0
0
1
1
1
1
3
0
1
0
1
0
1
0
1
1 2 3 4 5 6 7 8  
COM_A COM_B Regs  
2D8  
2E8 (COM4)  
2F8 (COM2)  
3D8  
3E8 (COM3)  
3F8 (COM1)  
IRQ_A  
IRQ_B  
1
This table is also printed on the board.  
The IRQ used for the modem is set in section IRQ_A. Place one jumper in this section to select an  
IRQ number in the interval IRQ3 to IRQ15.  
SIM card  
The SIM card connector (CN9) is placed on the rear side of the module. A SIM card must be placed  
in this connector in order to establish a wireless communication.  
Modem AUX connector CN3  
The modem has a built-in interface for simple non-isolated digital and analogue channels. This  
includes:  
Four digital inputs  
Three 8-bit ADC inputs  
One 8-bit DAC output  
The table shows the connector layout:  
Pin no Name  
Signal name in modem Pin no CDB-9F  
1
2
3
4
5
6
7
8
GND  
DAC  
1
DAC  
6
2
7
3
8
4
9
5
ADC #3  
ADC #2  
ADC #1  
Digital input #4 IO4  
Digital input #3 IO3  
Digital input #2 IO2  
Digital input #1 IO1  
NC  
ADC3  
ADC2  
ADC1  
9
10  
The protection circuitry between the modem and CN3 is shown here.  
2.75V  
CN3  
10K  
Digital & analogue inputs  
Modem  
2.75V  
100ohm  
DAC  
These I/Os are operated by AT commands in the modem.  
Page 8 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
AT commands  
All functions of the modem are carried out by AT commands from a computer application. For  
documentation of the AT command set please see “Integrators Manual” for GM47 from Sony  
Modem on/off  
The PV-18xx has circuitry that automatically turns the modem on after a system reset, by activating  
its ON/OFF input. From software, you can later activate the ON/OFF input, please see section PV-  
1800 register interface.  
RS232 port (CN6)  
The PV-1800 and PV-1700 is equipped with a 16C550 compatible RS232 port which can be  
accessed through a 10pin boxheader (CN6).  
Setting up RS232  
The setup of the serial port is configured by two jumper blocks.  
The address is set by placing one or more jumpers in the positions 4 to 6 in section COM_B.  
The table shows how different COM ports can be configured:  
ST1  
5
0
0
1
1
0
0
1
Base address  
COM_B  
Disabled  
2C8  
4
0
0
0
0
1
1
1
1
6
0
1
0
1
0
1
0
1
1 2 3 4 5 6 7 8  
COM_A COM_B Regs  
2D8  
2E8 (COM4)  
2F8 (COM2)  
3D8  
3E8 (COM3)  
3F8 (COM1)  
IRQ_A  
IRQ_B  
1
This table is also printed on the board.  
The IRQ used for the RS232 is set in section IRQ_B. Place one jumper in this section to select an  
IRQ number in the interval IRQ3 to IRQ15. Be aware not to make conflict with COM-ports on the  
CPU module.  
RS232 connector (CN6)  
The serial connector is a 10pin 2.54mm boxheader placed on the edge of the module.  
This pinout is chosen so that a 10-wire ribbon cable with a 10-pin connector in one end and a DB9  
male connector in the other end can be used. In this way, the DB9 male connector acts like a serial  
port in a PC.  
Page 9 / 21  
 
Function Pin no CN9 Pin no CDB-9M I/O  
GND  
RI  
1
2
3
4
5
6
7
8
9
5
9
4
8
3
7
2
6
1
I
O
I
O
O
I
1
2
3
4
5
DTS  
CTS  
TxD  
RTS  
RxD  
DSR  
CD  
6
7
8
9
DSUB9-M frontview  
I
I
N.C.  
10  
Page 10 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Analogue inputs (CN5)  
The PV-1800 and PV-1700 has 8 isolated analogue inputs accessible in a 10pin box header (CN5).  
Beside these inputs, there is also a +3.3V isolated voltage with common ground reference as the  
analogue inputs. This voltage can be used to power external conditioning circuitry - (max 10mA).  
Depending on the model – see section ordering codes – each input will have a full scale of 2.5V,  
5.0V, 10V, or 20mA. The table shows the connector layout:  
Pin no Name  
Pin no CDB-9F  
1
2
3
4
5
6
7
8
Analogue GND  
1
6
2
7
3
8
4
9
5
5
4
3
2
1
Analogue input#7  
Analogue input#6  
Analogue input#5  
Analogue input#4  
Analogue input#3  
Analogue input#2  
Analogue input#1  
Analogue input#0  
+3.3V Isolated  
9
8
7
6
DSUB9-F frontview  
9
10  
The input circuitry looks like this:  
R1  
10K  
input  
OPAMP  
to ADC  
0 - 2.5V  
R2  
100pF  
The analogue inputs are factory configured by choosing proper values for R1 and R2. In the table  
the values are shown for the different models. The input resistance is 1Mon all voltage input  
channels. The software interface is explained in section PV-1800 register interface.  
Configuration R1  
R2  
1 Mohm  
0 - 2.5V  
0 - 5 .0V  
0 - 10.0V  
0 - 20mA  
0 ohm  
449 Kohm 449 Kohm  
741 Kohm 247 Kohm  
0 ohm  
125 ohm  
Differential measurement  
The analogue inputs can two by two be used for differential measurement. Inputs, which can make  
up a pair, are defined in the software. One of the wires, in each pair, is inside the ADC connected as  
a ‘negative’ input; the other as a ‘positive’ input. The common mode voltage on the ‘negative’ input  
must not exceed 0.5V in a 0 – 2.5V configuration and 1V in a 0 - 5V configuration. The  
combinations of the actual inputs used for differential measurement are shown in section - PV-1800  
register interface. Also here it is described which input that is used as the ‘negative’.  
Page 11 / 21  
 
Digital inputs (CN 1)  
All models, except PV-1830 and PV-1730 has 8 isolated digital inputs connected to a 10-pin box  
header (CN1). All the inputs have ac-couplers with a common ground reference. Because of the ac-  
couplers, the inputs can be activated with positive as well as negative input voltages. The table  
shows the connector layout:  
Pin no Name  
Pin no CDB-9F  
1
2
Digital input #0  
1
6
2
7
3
8
4
9
5
Digital input #1  
Digital input #2  
Digital input #3  
Digital input #4  
Digital input #5  
Digital input #6  
Digital input #7  
GND  
5
4
3
2
1
3
4
5
6
7
8
9
9
8
7
6
DSUB9-F frontview  
10  
NC  
The input circuitry looks like this:  
3K32  
DI_0  
3K32  
DI_7  
GND  
Counter inputs  
The digital input section includes a 16-bit counter. Besides acting as normal digital inputs, input #0  
and #1 can also be used as counter inputs.  
Input #0: counter input for the 16-bit counter.  
Input #0 together with input #1: counter inputs for a 16-bit quadrature counter.  
The counter function can be software programmed to be in one of four modes.  
The counter modes are shown here:  
Counting positive edges:  
DI #0  
up  
up  
Counting negative edges:  
DI #0  
Mode Function  
up  
up  
0
1
2
3
Disabled  
Quadrature counting:  
Increment on rising edges on DI #0  
Increment on falling edges on DI #0  
DI #0 and DI #1 act as a quadrature counter  
DI #0  
DI #1  
up  
up  
up  
up  
down down down  
down  
The software interface is explained in section PV-1800 register interface.  
Page 12 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Digital outputs (CN2)  
The digital section has 7 isolated digital outputs connected to a 10pin box header (CN2). The  
outputs are configured as PNP outputs with their transistors connected to an external supply voltage  
(+V_EXT). The table shows the connector layout:  
Pin no Name  
Pin no CDB-9F  
1
2
3
4
5
6
7
8
Digital output #0  
1
6
2
7
3
8
4
9
5
5
4
3
2
1
Digital output #1  
Digital output #2  
Digital output #3  
Digital output #4  
Digital output #5  
Digital output #6  
-Vext  
9
8
7
6
DSUB9-F frontview  
9
+Vext  
10  
NC  
The output circuitry looks like this:  
F1  
1.6A  
CN2  
+Vext  
REL0  
DO #0  
free-wheeling diodes  
REL6  
DO #6  
-Vext  
Attention!  
The user has to add proper free-wheeling diodes across inductive loads to protect the output  
transistors against high voltages.  
The software interface is explained in section PV-1800 register interface.  
Page 13 / 21  
 
UPS signals (CN7)  
Modules with onboard DC/DC converter has signals that, combined with external circuitry, can be  
used to implement a UPS function. There is an input for turning off the 20W power supply  
(SWITCHER_OFF), two status inputs (UPS_STATUS1 and UPS_STATUS2), and an output  
(UPS_PWROFF) that can tell the external circuitry to turn off power after a programmable delay.  
Connector layout:  
Pin no Name  
1
2
3
GND  
*
*
+
-
24V DC  
4
*
5
*
6
7
UPS_PWROFF  
+5V  
8
9
10  
UPS_STATUS2  
UPS_STATUS1  
SWITCHER_OFF  
* = do not connect, for internal factory use.  
PV-1800 register interface  
All modules, except PV-1730 has a register interface with three blocks of I/O ports: the modem  
UART, the external RS232  
UART and the internal registers. The UARTs are 16C550 compatible and use  
eight I/O ports each.  
The base addresses of the modem UART and external RS232 UART are configured  
on configuration jumper 1,2,3 and 4,5,6 respectively, see the table printed  
on the board. The IRQ of both UARTs are configured on the IRQ jumpers. You  
cannot use the same IRQ for both UARTs.  
Base address  
Configuration jumper 7, 8 configure the base address of the sixteen internal  
registers. This table is also printed on the board.  
ST1  
Base address  
Registers  
200h  
220h  
300h  
7
0
0
1
1
8
1 2 3 4 5 6 7 8  
COM_ACOM_BRegs  
0
1
0
1
320h  
Page 14 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Internal registers  
Address  
Base+0  
Base+1  
Base+2  
Base+3  
Base+4  
Base+5  
Base+6  
Base+7  
Base+8  
Base+9  
Access  
Name  
Function  
Read only  
Read only  
Read/write  
Read only  
Read only  
Read only  
Read/write  
Read/write  
Read/write  
Read/write  
Signature (8Ch)  
REG_SIGN  
REG_MODEL  
REG_DIGOUT  
REG_DIGIN  
REG_CNTLO  
REG_CNTHI  
REG_CNTMODE  
REG_MODEM  
REG_UPS  
Model  
Digital outputs  
Digital inputs  
Counter LSB  
Counter MSB  
Counter configuration  
Modem status and on/off command  
UPS status  
Delayed UPS shutdown  
ADC command/result LSB  
ADC result MSB  
REG_UPSSHDN  
REG_ADCLO  
REG_ADCHI  
reserved  
Base+0Ah Read/write  
Base+0Bh Read/write  
Base+0Ch -  
Base+0Dh -  
Base+0Eh -  
reserved  
reserved  
Base+0Fh  
-
reserved  
REG_SIGN (base+0): Signature (read only)  
Always reads 8Ch. Can be used by software to verify the presence of a module with register  
interface.  
REG_MODEL (base+1): PV-1800 firmware model number (read only)  
When the firmware is changed to remove, add, or change features, the model number is  
changed. Current model number is 00h.  
REG_DIGOUT (base+2): Digital outputs (read/write)  
Writing to bit 0-6 sets digital output 0-6. 0=off, 1=on.  
Reading bit 0-6 returns the current status of digital output 0-6.  
Bit 7 is always 0.  
REG_DIGIN (base+3): Digital inputs (read only)  
Reading bit 0-7 returns the current status of digital input 0-7. 0=off, 1=on.  
DI0 and DI1 can also be used as counter inputs. Regardless of this, their current  
status can always be read at this register.  
REG_CNTLO (base+4): Counter low byte (read only)  
Reading this register returns bit 0-7 of the current value of the counter, and  
simultaneously stores bit 8-15 of the counter in the REG_CNTHI register.  
REG_CNTHI (base+5): Counter high byte (read only)  
Reading this register returns the previously stored value of bit 8-15 of the  
counter.  
Page 15 / 21  
 
REG_CNTMODE (base+6): Counter configuration (read/write)  
The counter starts at 0000h after system reset. It cannot be reset or reloaded from software.  
Bits: 000000cc  
cc = counter mode (read/write):  
00 = counter disabled, DI0 and DI1 are ignored  
01 = counts rising edges of DI0  
10 = counts falling edges of DI0  
11 = quadrature counter on DI0 and DI1  
REG_MODEM (base+7): Modem status and on/off control (read/write)  
Bits: 00000vlo  
v: (read only) 1 = VIO voltage (2.75V) on, 0=off.  
l: (read only) Modem LED status. 0=LED off, 1=LED on.  
o: (read/write) Force on/off. Writing '1' to this bit pulls the modem on/off pin  
low. To turn the modem on or off, you should write '1' to this bit, wait at  
least two seconds, and then write '0' to this bit.  
The module has logic that automatically turns the modem on at system reset.  
REG_UPS (base+8): UPS status (read only)  
The UPS status inputs have no other function than being readable here.  
Bits: ab000000  
a: UPS status1 input from external UPS logic  
b: UPS status2 input from external UPS logic  
REG_UPSSHDN (base+9): UPS delayed shutdown timer (read/write)  
This register holds the number of seconds until the external UPS logic is told to  
turn off power.  
The UPS_PWROFF output is low (0V) when the system should run normally, and high (3.3V)  
when external UPS circuitry should turn off power.  
FFh: Idle, no delayed shutdown is in progress. UPS_PWROFF is low.  
00h: Delay expired, UPS_PWROFF is high.  
Other values: Delay in progress, the counter decrements towards 00h. UPS_PWROFF is low.  
A delayed shutdown is initiated by writing the desired number of seconds to this  
register. A delayed shutdown in progress can be modified (by writing a new value  
to this register), cancelled (by writing FFh), or you can turn off immediately by  
writing 00h.  
Page 16 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
REG_ADCLO (base+0Ah): ADC command, status, and result low byte (read/write)  
Writing to this register starts a new A/D conversion. You should only do this  
when the ADC is idle.  
Command bits: 0000dccc  
d: 0:single-ended, 1=differential  
ccc: Channel.  
d c c c Conversion  
0 0 0 0 AIN0 relative to AGND  
0 0 0 1 AIN1 relative to AGND  
0 0 1 0 AIN2 relative to AGND  
0 0 1 1 AIN3 relative to AGND  
0 1 0 0 AIN4 relative to AGND  
0 1 0 1 AIN5 relative to AGND  
0 1 1 0 AIN6 relative to AGND  
0 1 1 1 AIN7 relative to AGND  
1 0 0 0 Differential AIN0(+) - AIN1(-)  
1 0 0 1 Differential AIN1(-) - AIN0(+)  
1 0 1 0 Differential AIN2(+) - AIN3(-)  
1 0 1 1 Differential AIN3(-) - AIN2(+)  
1 1 0 0 Differential AIN4(+) - AIN5(-)  
1 1 0 1 Differential AIN5(-) - AIN4(+)  
1 1 1 0 Differential AIN6(+) - AIN7(-)  
1 1 1 1 Differential AIN7(-) - AIN6(+)  
Reading REG_ADCLO returns status and result bits.  
Result bits: rrrr00pb  
p: ADC present. If 1, the ADC is available. If 0, the ADC is not mounted, and  
you should not write to REG_ADCLO.  
b: Busy. 0 = ADC idle. The previous result can be read, and a new conversion can  
be started. 1 = conversion in progress. All result bits are invalid when b=1.  
rrrr: Four least-significant bits of the conversion result. Only valid when b=0.  
REG_ADCHI (base+0Bh): ADC result, high byte (read only)  
Reading this register returns the eight most-significant bits of the conversion  
result. Only valid when the ADC is idle.  
Page 17 / 21  
 
Technical data  
Power supply  
Input voltage (nominal)  
Input voltage (MAX)  
Output voltage  
8 – 27Vdc.  
35Vdc.  
5Vdc  
External load  
Up to 4A, depending on configuration and thermal  
conditions.  
UPS interface:  
4 pins in CN7  
Run/stop, AUX1,AUX2,AUX3 (factory use only).  
GSM-modem:  
Modem type  
GM47 (SonyEricsson).  
3V or 5V  
SIM card interface  
Frequency range  
EGSM 900 MHz  
1800 MHz (Dual Band).  
1W  
Maximum RF output power  
Antenna impedance  
Antenna connector type  
Supported I/Os (using AT  
commands)  
2W  
50 ꢀ  
MMCX RF connector  
Available in 10pin connector  
3 Analogue inputs *  
1 Analogue output *  
8 bit, 0 – 2.75V  
8 bit, 0 – 2.475V  
4 general purpose digital inputs * 0 – 2.75V  
COM ports:  
Number of ports  
Addressing range  
IRQs supported  
Connector  
Two, one used for GSM modem  
2C8h, 2D8h, 2E8h, 2F8h, 3D8h, 3E8h, 3F8h, disabled  
3, 4, 5, 7, 9, 10, 11, 12, 15  
Port 2 available in 10pin box header.  
Analogue inputs:  
Resolution  
12 bit  
Inputs  
Isolation  
8 ch. single ended or 4 ch. differential – one common  
1kV, 1 minute  
Input range configurations  
(all unipolar)  
8 x 0–2.5V (default) or  
8 x 0-5V or  
8 x 0-10V or  
8 x 0-20mA or  
4 x 0-20mA + 4 x 0-2.5V  
1M(default).  
0.5% of FSR, 3LSB (default)  
Input impedance  
Accuracy  
Conversion time  
Connector type  
Digital inputs:  
Number of channels  
Digital logic levels  
11us  
10 pin box header  
8 isolated, one common ground  
0 – 24V, non-polarity,  
Input low voltage: 0 – 1.5V  
Input high voltage: 10 – 24V  
Page 18 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Max input voltage  
Counter input  
30V, current limiting resistor = 3.32kohm / 250mW  
DI0 can act as a 16-bit up-counter by counting positive or  
negative edges (configurable)  
DI0 and DI1 can act as a 16-bit quadrature counter.  
10kHz  
10 pin box header  
Max counting rate  
Connector type  
Digital outputs:  
Number of channels  
Max load current  
7 isolated PNP outputs  
0.5Adc, load current external delivered,  
total current must not exceed 1.5Adc.  
30Vdc  
Max voltage  
Protection  
Snubber diode at each output  
10 pin box header  
Connector type  
Environmental specifications:  
Operating temperature:  
Storage temperature:  
Humidity:  
Cyclic humidity:  
Vibration:  
Sustained vibration:  
Shock  
Size (W x L x H)  
Weight:  
-20º to +70ºC  
-40º to 85ºC  
20 to 90% non-condensing  
ETS 300 019-2-5 or equal  
10-1000 Hz Sinus and random @ 1-1,5G RMS  
EN 60068-2-34 & EN 60068-2-36  
IEC 60068-2-27 & IEC 60068-2–29  
90 x 96 x 14 mm – see next page  
116 g (excl. packaging)  
*for details refer to SonyEricsson’s documentation:  
GM47_48 Guidelines and  
GM47_48 Integrators Manual  
Page 19 / 21  
 
Mechanical Layout  
This schematic shows the dimensions for PV-1800.  
All dimensions are in mm.  
Page 20 / 21  
 
Users Manual & Installation Guide  
PV- 1800: Power supply module with GSM MODEM  
Installation guide  
Precautions to ESD  
Please note that the Micronix PV modules must be handled with respect to ESD (Electrostatic  
Discharge). Electrostatic Discharge to the PV modules must be avoided.  
Before removing the module from the protection bag, the user must be discharged using a grounded  
wrist ribbon.  
Settings and connections  
A typical setup procedure involves these steps:  
1. Perform settings of:  
Base address. (Regs.).  
Port number for COM_A (modem).  
IRQ number COM_A (modem).  
Port number for COM_B (RS232).  
IRQ number for COM_B (RS232).  
2. Place module in the PC/104 stack.  
3. Connect interface cables: Analogue, digital etc.  
4. Place a SIM card in the SIM card connector.  
5. Connect the antenna cable to the MMCX-connector at the modem.  
6. Connect the power cable (24V DC) at KL1.  
Factory settings  
The default jumper setting depends on the model you have purchased.  
Factory settings, PV-1800 and PV-1700:  
Registers base address: 200h  
1 2 3 4 5 6 7 8  
Modem port: 3E8 (COM3)  
COM_A COM_B Regs  
Modem IRQ: 10  
RS232 port: 2E8 (COM4)  
RS232 IRQ: 12  
IRQ_A  
IRQ_B  
Factory settings, PV-1820 / PV-1830:  
Registers base address: 200h  
1 2 3 4 5 6 7 8  
Modem port: 3E8 (COM3)  
Modem IRQ: 10  
COM_A COM_B Regs  
IRQ_A  
IRQ_B  
Page 21 / 21  
 

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