Can anybody explain me the difference between RN networks and RNX? I can't
understans which one is bussed network, which one is isolated network...
Can anybody explain me the difference between RN networks and RNX? I can't
understans which one is bussed network, which one is isolated network...
Kail wrote:
Can anybody explain me the difference between RN networks and RNX? I can't
understans which one is bussed network, which one is isolated network...
The RNX10 appears to be a series string of resistors. I am not sure what
the RN10 series represents, as it has only one resistor.
(This is in the "resistor-net.lbr")
So I share your confusion.
Maybe best to make your own library part ?
John G.
John Giddy schrieb:
Kail wrote:
Can anybody explain me the difference between RN networks and RNX? I
can't understans which one is bussed network, which one is isolated
network...
The RNX10 appears to be a series string of resistors. I am not sure what
the RN10 series represents, as it has only one resistor.
(This is in the "resistor-net.lbr")
So I share your confusion.
Maybe best to make your own library part ?
John G.
Never heard of a bunch of Transistors on a single chip?
Now a Resistor Network is almost the same. It just means a certain
amount of Resistors with equal values in a single device.
There are usually two different RN-circuits: either single resistors or
resistors with one side tied together.
In eagle 5-3.x resistor-net.lbr the first two devices CTS742C083 and
CTS753DRT16 show an example of the inner circuits.
Yes and there are diodes networks too....
--
Gruß / regards
Jörn
Joern Paschedag wrote:
John Giddy schrieb:
Kail wrote:
Can anybody explain me the difference between RN networks and RNX? I
can't understans which one is bussed network, which one is isolated
network...
The RNX10 appears to be a series string of resistors. I am not sure
what the RN10 series represents, as it has only one resistor.
(This is in the "resistor-net.lbr")
So I share your confusion.
Maybe best to make your own library part ?
John G.
Never heard of a bunch of Transistors on a single chip?
Now a Resistor Network is almost the same. It just means a certain
amount of Resistors with equal values in a single device.
There are usually two different RN-circuits: either single resistors or
resistors with one side tied together.
In eagle 5-3.x resistor-net.lbr the first two devices CTS742C083 and
CTS753DRT16 show an example of the inner circuits.
Yes and there are diodes networks too....
I am well aware of what resistor networks usually look like. It is just
that the schematic for the RN-10 in that library distributed with 4.16
is very confusing, as it shows only a single resistor connected to pins
1 and 2, and then pairs of pins with no resistors. "Invoke" comes up
with a message that there is only one resistor.
The RNX-10 shows 10 resistors connected to pins in a manner which
indicates a series string, not a set of resistors with a common connection.
John G.
John Giddy schrieb:
Joern Paschedag wrote:
John Giddy schrieb:
Kail wrote:
Can anybody explain me the difference between RN networks and RNX? I
can't understans which one is bussed network, which one is isolated
network...
The RNX10 appears to be a series string of resistors. I am not sure
what the RN10 series represents, as it has only one resistor.
(This is in the "resistor-net.lbr")
So I share your confusion.
Maybe best to make your own library part ?
John G.
Never heard of a bunch of Transistors on a single chip?
Now a Resistor Network is almost the same. It just means a certain
amount of Resistors with equal values in a single device.
There are usually two different RN-circuits: either single resistors
or resistors with one side tied together.
In eagle 5-3.x resistor-net.lbr the first two devices CTS742C083 and
CTS753DRT16 show an example of the inner circuits.
Yes and there are diodes networks too....
I am well aware of what resistor networks usually look like. It is just
that the schematic for the RN-10 in that library distributed with 4.16
is very confusing, as it shows only a single resistor connected to pins
1 and 2, and then pairs of pins with no resistors. "Invoke" comes up
with a message that there is only one resistor.
The RNX-10 shows 10 resistors connected to pins in a manner which
indicates a series string, not a set of resistors with a common connection.
John G.
If you do not like the schematic of RNX-10 why don't you use the G10R
of resistor-sil.lbr which is exactly the same?
--
Gruß / regards
Jörn
Joern Paschedag wrote:
John Giddy schrieb:
Joern Paschedag wrote:
John Giddy schrieb:
Kail wrote:
Can anybody explain me the difference between RN networks and RNX?
I can't understans which one is bussed network, which one is
isolated network...
The RNX10 appears to be a series string of resistors. I am not sure
what the RN10 series represents, as it has only one resistor.
(This is in the "resistor-net.lbr")
So I share your confusion.
Maybe best to make your own library part ?
John G.
Never heard of a bunch of Transistors on a single chip?
Now a Resistor Network is almost the same. It just means a certain
amount of Resistors with equal values in a single device.
There are usually two different RN-circuits: either single resistors
or resistors with one side tied together.
In eagle 5-3.x resistor-net.lbr the first two devices CTS742C083 and
CTS753DRT16 show an example of the inner circuits.
Yes and there are diodes networks too....
I am well aware of what resistor networks usually look like. It is
just that the schematic for the RN-10 in that library distributed with
4.16 is very confusing, as it shows only a single resistor connected
to pins 1 and 2, and then pairs of pins with no resistors. "Invoke"
comes up with a message that there is only one resistor.
The RNX-10 shows 10 resistors connected to pins in a manner which
indicates a series string, not a set of resistors with a common
connection.
John G.
If you do not like the schematic of RNX-10 why don't you use the G10R
of resistor-sil.lbr which is exactly the same?
It wasn't me that wanted to use the RN-10 etc. I was just trying to be
helpful. The original poster was "Kal".
John G.