2�@ Appendix

�@�@�@�@1.�@ IEEE-488 GPIB�̊T�v
�@�@�@�@2.�@ Notes on Specific Hardware
�@�@�@�@�@�@�@�@1.�@ GPIB-PC/104
�@�@�@�@�@�@�@�@2.�@ GPIB-PCW, GPIB-HS-NT+, GPIB-AT
Software Manual:

2.1�@ IEEE-488 GPIB�̊T�v

Introduction �@ The IEEE-488 or IEC 625 interface (GPIB) is a powerful tool for communication and control of devices used in the fields of measurement, automation, and data analysis. The acceptance of the interface as a worldwide standard had its start when Hewlett Packard created the HP-IB (Hewlett Packard Interface Bus). It allowed the company to equip completely different instruments with one standard interface.

In the following years, the HP-IB has become accepted worldwide without major changes in the form of the standards IEEE-488 and IEC 625. The only difference between IEEE-488 and IEC 625 is in the type of connector used.

The IEEE-488 uses a 24 pin amphenol connector, while the IEC 625 uses a 25 pin connector (called the MIN-D-SUB). The connection to different types can be made easily with the use of an adapter cable.

Fifteen devices can be operated on the IEEE-488 bus in a parallel manner. The management of the bus is handled by the Controller. By using a three line handshake protocol, it is assured that the slowest connected and addressed device determines the data transfer rate of the overall system. The benefit to this three line handshake is extremely reliable data transfer without the use of a separate timing parameter or clock.

The IEEE-488 Bus �@ The IEEE-488 bus is a communication system of up to 15 devices with a single system controller (usually a PC or similar computer). The interfaces are connected with a 24 pin cable to one another.

Eight of the 24 lines provide byte oriented, paralleled data transfer. The other sixteen lines provide signals for communication control as well as the necessary grounding (GND). Each device that is connected to the bus, as well as the system controller, is identified by a unique address. An address is a primary address only, or a primary address together with a secondary address. Secondary addressing is commonly used to address subdevices of a device. A primary address ranges from 0 to 30 and a secondary address ranges from 0 to 31.

The controller �@ A device that is capable of sending interface messages is called a controller. There may be only one active controller in a system. The controller which functions as the active controller once the system has been started is called the system controller. Interface messages are defined by the IEEE-488 standard and they are common to every device conforming to IEEE-488.1 or IEEE-488.2. Interface messages are used to setup the GPIB data transfer direction by specifiing a talker and one or more listener(s), reset the interface of a device and a device itself, query for status information and configure an instrument for remote control. A device receives these interface messages, which are identified by the ATN line being active. Interface messages (sometimes called commands) that affect every device connected to the IEEE-488 bus belong to the universal command group and interface messages the affect only the addressed device are called addressed command group.

Talker listener devices �@ A device which can send device specific messages to the bus after it has been addressed is called a talker. A device which can receive device specific data from the bus is called a listener. Most devices do combine both of these characteristics. To transfer data there must be exactly one talker and at least one listener. Since device specific messages are not specified by the IEEE-488.1 specification these messages vary between the different instruments. The more recent IEEE-488.2 specification uses the SCPI (Standard Commands for Programmable Instruments) language to control instruments. These messages bases on the IEEE-488.1 hardware protocol. For this reason it is possible to control a IEEE-488.2 device by a controller that just conforms to IEEE-488.1.

Transfering data �@ At the beginning of a communication sequence, the controller sends a talker and a listener address. Then, the ATN (attention) line is set to 'false' and the addressed talker starts with its data transfer. Each of the data bytes is transfered by using the three line handshake which enshures that the talker does not send another data byte before the listener has accepted the actual byte. The data transfer is terminated by a special character the EOS (End Of Sequence; usually a linefeed, ASCII code 10) or by a special control line, the EOI line (End Or Identify). Using the EOI line is commonly used for binary data transfer. After the data has been transfered, the controller sets ATN to 'true' and may initiate the next sequence. The controller can also address itself as a talker/listener which is the most usual case.

Software Manual:

2.2�@ Notes on Specific Hardware

�@�@�@�@�@�@�@�@1.�@ GPIB-PC/104
�@�@�@�@�@�@�@�@2.�@ GPIB-PCW, GPIB-HS-NT+, GPIB-AT

2.2.1�@ GPIB-PC/104

I/O address configuration �@ The DIP switch SW 1-2 on the card is used to select the base I/O address of the card. Position 6 is ignored. Set position 1 through 5 according to the following table. Choose an unallocated region of I/O addresses.

Table�@5�@GPIB-PC104 address selection
HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

IRQ address configuration �@ IRQ 5 is preselected. If conflicting with another card change it to an unallocated IRQ channel.

2.2.2�@ GPIB-PCW, GPIB-HS-NT+, GPIB-AT

I/O address configuration �@ The I/O address DIP switch on the card is used to select the base I/O address of the card. Position 8 must always be ON. Set position 1 through 7 according to the following table. Choose an unallated region if I/O addresses.

Table�@6�@GPIB-PC, GPIB-HS-NT+, GPIB-AT address selection
HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5	Pos 6	Pos 7
100	256	ON	ON	ON	ON	ON	OFF	ON
108	264	OFF	ON	ON	ON	ON	OFF	ON
110	272	ON	OFF	ON	ON	ON	OFF	ON
118	280	OFF	OFF	ON	ON	ON	OFF	ON
120	288	ON	ON	OFF	ON	ON	OFF	ON
128	296	OFF	ON	OFF	ON	ON	OFF	ON
130	304	ON	OFF	OFF	ON	ON	OFF	ON
138	312	OFF	OFF	OFF	ON	ON	OFF	ON
140	320	ON	ON	ON	OFF	ON	OFF	ON
148	328	OFF	ON	ON	OFF	ON	OFF	ON
150	336	ON	OFF	ON	OFF	ON	OFF	ON
158	344	OFF	OFF	ON	OFF	ON	OFF	ON
160	352	ON	ON	OFF	OFF	ON	OFF	ON
168	360	OFF	ON	OFF	OFF	ON	OFF	ON
170	368	ON	OFF	OFF	OFF	ON	OFF	ON
178	376	OFF	OFF	OFF	OFF	ON	OFF	ON
180	384	ON	ON	ON	ON	OFF	OFF	ON
188	392	OFF	ON	ON	ON	OFF	OFF	ON
190	400	ON	OFF	ON	ON	OFF	OFF	ON
198	408	OFF	OFF	ON	ON	OFF	OFF	ON
1A0	416	ON	ON	OFF	ON	OFF	OFF	ON
1A8	424	OFF	ON	OFF	ON	OFF	OFF	ON
1B0	432	ON	OFF	OFF	ON	OFF	OFF	ON
1B8	440	OFF	OFF	OFF	ON	OFF	OFF	ON
1C0	448	ON	ON	ON	OFF	OFF	OFF	ON
1C8	456	OFF	ON	ON	OFF	OFF	OFF	ON
1D0	464	ON	OFF	ON	OFF	OFF	OFF	ON
1D8	472	OFF	OFF	ON	OFF	OFF	OFF	ON
1E0	480	ON	ON	OFF	OFF	OFF	OFF	ON
1E8	488	OFF	ON	OFF	OFF	OFF	OFF	ON
1F0	496	ON	OFF	OFF	OFF	OFF	OFF	ON
1F8	504	OFF	OFF	OFF	OFF	OFF	OFF	ON
200	512	ON	ON	ON	ON	ON	ON	OFF
208	520	OFF	ON	ON	ON	ON	ON	OFF
210	528	ON	OFF	ON	ON	ON	ON	OFF
218	536	OFF	OFF	ON	ON	ON	ON	OFF
220	544	ON	ON	OFF	ON	ON	ON	OFF
228	552	OFF	ON	OFF	ON	ON	ON	OFF
230	560	ON	OFF	OFF	ON	ON	ON	OFF
238	568	OFF	OFF	OFF	ON	ON	ON	OFF
240	576	ON	ON	ON	OF	ON	ON	OFF
248	584	OFF	ON	ON	OFF	ON	ON	OFF
250	592	ON	OFF	ON	OFF	ON	ON	OFF
258	600	OFF	OFF	ON	OFF	ON	ON	OFF
260	608	ON	ON	OFF	OFF	ON	ON	OFF
268	616	OFF	ON	OFF	OFF	ON	ON	OFF
270	624	ON	OFF	OFF	OFF	ON	ON	OFF
278	632	OFF	OFF	OFF	OFF	ON	ON	OFF
280	640	ON	ON	ON	ON	OFF	ON	OFF
288	648	OFF	ON	ON	ON	OFF	ON	OFF
290	656	ON	OFF	ON	ON	OFF	ON	OFF
298	664	OFF	OFF	ON	ON	OFF	ON	OFF
2A0	672	ON	ON	OFF	ON	OFF	ON	OFF
2A8	680	OFF	ON	OFF	ON	OFF	ON	OFF
2B0	688	ON	OFF	OFF	ON	OFF	ON	OFF
2B8	696	OFF	OFF	OFF	ON	OFF	ON	OFF
2C0	704	ON	ON	ON	OFF	OFF	ON	OFF
2C8	712	OFF	ON	ON	OFF	OFF	ON	OFF
2D0	720	ON	OFF	ON	OFF	OFF	ON	OFF
2D8	728	OFF	OFF	ON	OFF	OFF	ON	OFF
2E0	736	ON	ON	OFF	OFF	OFF	ON	OFF
2E8	744	ON	ON	OFF	OFF	OFF	ON	OFF
2F0	752	ON	OFF	OFF	OFF	OFF	ON	OFF
2F8	760	OFF	OFF	OFF	OFF	OFF	ON	OFF
300	768	ON	ON	ON	ON	ON	OFF	OFF
308	776	OFF	ON	ON	ON	ON	OFF	OFF
310	784	ON	OFF	ON	ON	ON	OFF	OFF
318	792	OFF	OFF	ON	ON	ON	OFF	OFF
320	800	ON	ON	OFF	ON	ON	OFF	OFF
328	808	OFF	ON	OFF	ON	ON	OFF	OFF
330	816	ON	OFF	OFF	ON	ON	OFF	OFF
338	824	OFF	OFF	OFF	ON	ON	OFF	OFF
340	832	ON	ON	ON	OFF	ON	OFF	OFF
348	840	OFF	ON	ON	OFF	ON	OFF	OFF
350	848	ON	OFF	ON	OFF	ON	OFF	OFF
358	856	OFF	OFF	ON	OFF	ON	OFF	OFF
360	864	ON	ON	OFF	OFF	ON	OFF	OFF
368	872	OFF	ON	OFF	OFF	ON	OFF	OFF
370	880	ON	OFF	OFF	OFF	ON	OFF	OFF
378	888	OFF	OFF	OFF	OFF	ON	OFF	OFF
380	896	ON	ON	ON	ON	OFF	OFF	OFF
388	904	OFF	ON	ON	ON	OFF	OFF	OFF
390	912	ON	OF	ON	ON	OFF	OFF	OFF
398	920	OFF	OFF	ON	ON	OFF	OFF	OFF
3A0	928	ON	ON	OFF	ON	OFF	OFF	OFF
3A8	936	OFF	ON	OFF	ON	OFF	OFF	OFF
3B0	944	ON	OFF	OFF	ON	OFF	OFF	OFF
3B8	952	OFF	OFF	OFF	ON	OFF	OFF	OFF
3C0	960	ON	ON	ON	OFF	OFF	OFF	OFF
3C8	968	OFF	ON	ON	OFF	OFF	OFF	OFF
3D0	976	ON	OFF	ON	OFF	OFF	OFF	OFF
3D8	984	OFF	OFF	ON	OFF	OFF	OFF	OFF
3E0	992	ON	ON	OFF	OFF	OFF	OFF	OFF
3E8	1000	OFF	ON	OFF	OFF	OFF	OFF	OFF
3F0	1008	ON	OFF	OFF	OFF	OFF	OFF	OFF
3F8	1016	OFF	OFF	OFF	OFF	OFF	OFF	OFF

IRQ address configuration �@ IRQ 5 is preselected. If conflicting with another card change it to an unallocated IRQ channel.

2.2.1�@ GPIB-PC/104

Table�@5�@GPIB-PC104 address selection
HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

IRQ address configuration �@ IRQ 5 is preselected. If conflicting with another card change it to an unallocated IRQ channel.

2.2.2�@ GPIB-PCW, GPIB-HS-NT+, GPIB-AT

Table�@6�@GPIB-PC, GPIB-HS-NT+, GPIB-AT address selection
HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5	Pos 6	Pos 7
100	256	ON	ON	ON	ON	ON	OFF	ON
108	264	OFF	ON	ON	ON	ON	OFF	ON
110	272	ON	OFF	ON	ON	ON	OFF	ON
118	280	OFF	OFF	ON	ON	ON	OFF	ON
120	288	ON	ON	OFF	ON	ON	OFF	ON
128	296	OFF	ON	OFF	ON	ON	OFF	ON
130	304	ON	OFF	OFF	ON	ON	OFF	ON
138	312	OFF	OFF	OFF	ON	ON	OFF	ON
140	320	ON	ON	ON	OFF	ON	OFF	ON
148	328	OFF	ON	ON	OFF	ON	OFF	ON
150	336	ON	OFF	ON	OFF	ON	OFF	ON
158	344	OFF	OFF	ON	OFF	ON	OFF	ON
160	352	ON	ON	OFF	OFF	ON	OFF	ON
168	360	OFF	ON	OFF	OFF	ON	OFF	ON
170	368	ON	OFF	OFF	OFF	ON	OFF	ON
178	376	OFF	OFF	OFF	OFF	ON	OFF	ON
180	384	ON	ON	ON	ON	OFF	OFF	ON
188	392	OFF	ON	ON	ON	OFF	OFF	ON
190	400	ON	OFF	ON	ON	OFF	OFF	ON
198	408	OFF	OFF	ON	ON	OFF	OFF	ON
1A0	416	ON	ON	OFF	ON	OFF	OFF	ON
1A8	424	OFF	ON	OFF	ON	OFF	OFF	ON
1B0	432	ON	OFF	OFF	ON	OFF	OFF	ON
1B8	440	OFF	OFF	OFF	ON	OFF	OFF	ON
1C0	448	ON	ON	ON	OFF	OFF	OFF	ON
1C8	456	OFF	ON	ON	OFF	OFF	OFF	ON
1D0	464	ON	OFF	ON	OFF	OFF	OFF	ON
1D8	472	OFF	OFF	ON	OFF	OFF	OFF	ON
1E0	480	ON	ON	OFF	OFF	OFF	OFF	ON
1E8	488	OFF	ON	OFF	OFF	OFF	OFF	ON
1F0	496	ON	OFF	OFF	OFF	OFF	OFF	ON
1F8	504	OFF	OFF	OFF	OFF	OFF	OFF	ON
200	512	ON	ON	ON	ON	ON	ON	OFF
208	520	OFF	ON	ON	ON	ON	ON	OFF
210	528	ON	OFF	ON	ON	ON	ON	OFF
218	536	OFF	OFF	ON	ON	ON	ON	OFF
220	544	ON	ON	OFF	ON	ON	ON	OFF
228	552	OFF	ON	OFF	ON	ON	ON	OFF
230	560	ON	OFF	OFF	ON	ON	ON	OFF
238	568	OFF	OFF	OFF	ON	ON	ON	OFF
240	576	ON	ON	ON	OF	ON	ON	OFF
248	584	OFF	ON	ON	OFF	ON	ON	OFF
250	592	ON	OFF	ON	OFF	ON	ON	OFF
258	600	OFF	OFF	ON	OFF	ON	ON	OFF
260	608	ON	ON	OFF	OFF	ON	ON	OFF
268	616	OFF	ON	OFF	OFF	ON	ON	OFF
270	624	ON	OFF	OFF	OFF	ON	ON	OFF
278	632	OFF	OFF	OFF	OFF	ON	ON	OFF
280	640	ON	ON	ON	ON	OFF	ON	OFF
288	648	OFF	ON	ON	ON	OFF	ON	OFF
290	656	ON	OFF	ON	ON	OFF	ON	OFF
298	664	OFF	OFF	ON	ON	OFF	ON	OFF
2A0	672	ON	ON	OFF	ON	OFF	ON	OFF
2A8	680	OFF	ON	OFF	ON	OFF	ON	OFF
2B0	688	ON	OFF	OFF	ON	OFF	ON	OFF
2B8	696	OFF	OFF	OFF	ON	OFF	ON	OFF
2C0	704	ON	ON	ON	OFF	OFF	ON	OFF
2C8	712	OFF	ON	ON	OFF	OFF	ON	OFF
2D0	720	ON	OFF	ON	OFF	OFF	ON	OFF
2D8	728	OFF	OFF	ON	OFF	OFF	ON	OFF
2E0	736	ON	ON	OFF	OFF	OFF	ON	OFF
2E8	744	ON	ON	OFF	OFF	OFF	ON	OFF
2F0	752	ON	OFF	OFF	OFF	OFF	ON	OFF
2F8	760	OFF	OFF	OFF	OFF	OFF	ON	OFF
300	768	ON	ON	ON	ON	ON	OFF	OFF
308	776	OFF	ON	ON	ON	ON	OFF	OFF
310	784	ON	OFF	ON	ON	ON	OFF	OFF
318	792	OFF	OFF	ON	ON	ON	OFF	OFF
320	800	ON	ON	OFF	ON	ON	OFF	OFF
328	808	OFF	ON	OFF	ON	ON	OFF	OFF
330	816	ON	OFF	OFF	ON	ON	OFF	OFF
338	824	OFF	OFF	OFF	ON	ON	OFF	OFF
340	832	ON	ON	ON	OFF	ON	OFF	OFF
348	840	OFF	ON	ON	OFF	ON	OFF	OFF
350	848	ON	OFF	ON	OFF	ON	OFF	OFF
358	856	OFF	OFF	ON	OFF	ON	OFF	OFF
360	864	ON	ON	OFF	OFF	ON	OFF	OFF
368	872	OFF	ON	OFF	OFF	ON	OFF	OFF
370	880	ON	OFF	OFF	OFF	ON	OFF	OFF
378	888	OFF	OFF	OFF	OFF	ON	OFF	OFF
380	896	ON	ON	ON	ON	OFF	OFF	OFF
388	904	OFF	ON	ON	ON	OFF	OFF	OFF
390	912	ON	OF	ON	ON	OFF	OFF	OFF
398	920	OFF	OFF	ON	ON	OFF	OFF	OFF
3A0	928	ON	ON	OFF	ON	OFF	OFF	OFF
3A8	936	OFF	ON	OFF	ON	OFF	OFF	OFF
3B0	944	ON	OFF	OFF	ON	OFF	OFF	OFF
3B8	952	OFF	OFF	OFF	ON	OFF	OFF	OFF
3C0	960	ON	ON	ON	OFF	OFF	OFF	OFF
3C8	968	OFF	ON	ON	OFF	OFF	OFF	OFF
3D0	976	ON	OFF	ON	OFF	OFF	OFF	OFF
3D8	984	OFF	OFF	ON	OFF	OFF	OFF	OFF
3E0	992	ON	ON	OFF	OFF	OFF	OFF	OFF
3E8	1000	OFF	ON	OFF	OFF	OFF	OFF	OFF
3F0	1008	ON	OFF	OFF	OFF	OFF	OFF	OFF
3F8	1016	OFF	OFF	OFF	OFF	OFF	OFF	OFF

IRQ address configuration �@ IRQ 5 is preselected. If conflicting with another card change it to an unallocated IRQ channel.

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off

HEX	DEC	Pos 1	Pos 2	Pos 3	Pos 4	Pos 5
100	256	on	on	on	off	on
120	288	off	on	on	off	on
140	320	on	off	on	off	on
160	352	off	off	on	off	on
180	384	on	on	off	off	on
1A0	416	off	on	off	off	on
1C0	448	on	off	off	off	on
1E0	480	off	off	off	off	on
200	512	on	on	on	on	off
220	544	off	on	on	on	off
240	576	on	off	on	on	off
260	608	off	off	on	on	off
280	640	on	on	off	on	off
2A0	672	off	on	off	on	off
2C0	704	on	off	off	on	off
2E0	736	off	off	off	on	off
300	768	on	on	on	off	off
320	800	off	on	on	off	off
340	832	on	off	on	off	off
360	864	off	off	on	off	off
380	896	on	on	off	off	off
3A0	928	off	on	off	off	off
3C0	960	on	off	off	off	off
3E0	992	off	off	off	off	off