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frequenz/api/common/v1/microgrid/components/grid.proto
GridConnectionPoint
A representation of a grid connection point. This is the point where a
microgrid connects to the grid.
The terms "Grid Connection Point" and "Point of Common Coupling" (PCC) are
commonly used in the context.
While both terms describe a connection point to the grid, the
GridConnectionPoint is specifically the physical connection point of the
generation facility to the grid, often concerned with the technical and
ownership aspects of the connection.
In contrast, the PCC is is more specific in terms of electrical engineering.
It refers to the point where a customer's local electrical system (such as a
microgrid) connects to the utility distribution grid in such a way that it
can affect other customers’ systems connected to the same network. It is the
point where the grid and customer's electrical systems interface and where
issues like power quality and supply regulations are assessed.
The term GridConnectionPoint is used to make it clear that what is referred
to here is the physical connection point of the local facility to the grid.
Note that this may also be the PCC in some cases.
| Field |
Type |
Label |
Description |
| rated_fuse_current |
uint32 |
|
This refers to the maximum amount of electrical current, in amperes, that a fuse at the grid connection point is designed to safely carry under normal operating conditions. |
This limit applies to currents both flowing in or out of each of the 3 phases individually.
In other words, a current i A at one of the phases of the grid connection point must comply with the following constraint: -rated_fuse_current <= i <= rated_fuse_current |
Scalar Value Types
| .proto Type |
Notes |
C++ |
Java |
Python |
Go |
C# |
PHP |
Ruby |
| double |
|
double |
double |
float |
float64 |
double |
float |
Float |
| float |
|
float |
float |
float |
float32 |
float |
float |
Float |
| int32 |
Uses variable-length encoding. Inefficient for encoding negative numbers – if your field is likely to have negative values, use sint32 instead. |
int32 |
int |
int |
int32 |
int |
integer |
Bignum or Fixnum (as required) |
| int64 |
Uses variable-length encoding. Inefficient for encoding negative numbers – if your field is likely to have negative values, use sint64 instead. |
int64 |
long |
int/long |
int64 |
long |
integer/string |
Bignum |
| uint32 |
Uses variable-length encoding. |
uint32 |
int |
int/long |
uint32 |
uint |
integer |
Bignum or Fixnum (as required) |
| uint64 |
Uses variable-length encoding. |
uint64 |
long |
int/long |
uint64 |
ulong |
integer/string |
Bignum or Fixnum (as required) |
| sint32 |
Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. |
int32 |
int |
int |
int32 |
int |
integer |
Bignum or Fixnum (as required) |
| sint64 |
Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. |
int64 |
long |
int/long |
int64 |
long |
integer/string |
Bignum |
| fixed32 |
Always four bytes. More efficient than uint32 if values are often greater than 2^28. |
uint32 |
int |
int |
uint32 |
uint |
integer |
Bignum or Fixnum (as required) |
| fixed64 |
Always eight bytes. More efficient than uint64 if values are often greater than 2^56. |
uint64 |
long |
int/long |
uint64 |
ulong |
integer/string |
Bignum |
| sfixed32 |
Always four bytes. |
int32 |
int |
int |
int32 |
int |
integer |
Bignum or Fixnum (as required) |
| sfixed64 |
Always eight bytes. |
int64 |
long |
int/long |
int64 |
long |
integer/string |
Bignum |
| bool |
|
bool |
boolean |
boolean |
bool |
bool |
boolean |
TrueClass/FalseClass |
| string |
A string must always contain UTF-8 encoded or 7-bit ASCII text. |
string |
String |
str/unicode |
string |
string |
string |
String (UTF-8) |
| bytes |
May contain any arbitrary sequence of bytes. |
string |
ByteString |
str |
[]byte |
ByteString |
string |
String (ASCII-8BIT) |