AIR SHield ESP8266/ESP32 Tx: Difference between revisions
m (→AnalysIR Setup) |
|||
(21 intermediate revisions by the same user not shown) | |||
Line 7: | Line 7: | ||
== Loading Firmware == | == Loading Firmware == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Loading_Firmware wiki page] | ||
However, please note that there is a different firmware for Tx and TRx shields. Essentially the receive parts are | However, please note that there is a different firmware for Tx and TRx shields. Essentially the receive parts are removed from the Tx version. | ||
== AnalysIR Setup == | == AnalysIR Setup == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#AnalysIR_Setup wiki page] | ||
Essentially the only difference is that you cannot receive signals using the Tx shield. However, you can send previously recorded signals from AnalysIR using the Tx shield for testing and troubleshooting. | Essentially the only difference is that you cannot receive signals using the Tx shield. However, you can send previously recorded signals from AnalysIR using the Tx shield for testing and troubleshooting. | ||
== IR Power Headers == | == IR Power Headers == | ||
When looking forward from the rear of the shield, header JP1 is located at the left/centre of the shield''(with the IR LEDs pointing forward & USB/3.5mm jack to the rear)''. Insert '''both''' jumpers into the x2 '''or''' x3 position to double the IR power. Insert one jumper into the x2 '''and''' x3 position to triple the IR power. When inserted left-to-right the jumpers are active, otherwise they are inactive. If both jumpers are inactive the IR power will be x1. | |||
These jumpers control the IR power for the 2 IR LEDs only. The IR power going to the 3.5mm jack is constant and at a lower level. | These jumpers control the IR power for the 2 IR LEDs only. The IR power going to the 3.5mm jack is constant and at a lower level. | ||
Bear in mind that the shield has 2 IR Emitters, which are configured in such a way as to deliver double the IR over using a single LED, for the same power budget. We usually, configure both a TSAL6100 and a TSAL6200 which are identical except that they emit at different angles, thus giving both wide angle and long range coverage for all your signals. | Bear in mind that the shield has 2 IR Emitters, which are configured in such a way as to deliver double the IR over using a single LED, for the same power budget. We usually, configure both a TSAL6100 and a TSAL6200 which are identical except that they emit at different angles, thus giving both wide angle and long range coverage for all your signals. | ||
== IR Enable Headers == | == IR Enable Headers == | ||
When looking forward from the rear of the shield, header JP2 is located at the right/centre of the shield ''(with the IR LEDs pointing forward & USB/3.5mm jack to the rear)''. The jumper towards the front enables the 2 IR LEDs and the jumper towards the rear enables the 3.5mm jack, when inserted. You can enable either circuit or both. If neither jumper is inserted then there will be no IR emitted. ''(Some users may want to leverage this to use a relay or mechanical switch to allow control over which circuit is enabled.)'' | |||
== 3.5mm Jack == | == 3.5mm Jack == | ||
The jack is located at the rear of the shield. You can insert traditional IR blasters with 2 connections on the jack into this socket. this allows you to route signals into cabinets or from behind TV or even form cabinets to target devices. The circuit can be left enabled when not in use. However, make sure to turn off all power when inserting or removing the jack plug. | The jack is located at the rear of the shield. You can insert traditional IR blasters with 2 connections on the jack into this socket. this allows you to route signals into cabinets or from behind TV or even form cabinets to target devices. The circuit can be left enabled when not in use. However, make sure to turn off all power when inserting or removing the jack plug. | ||
== | == Inserting Shield into Wemos D1 Mini == | ||
Inserting Shield into Wemos D1 Mini == | Make sure the 2 IR Leds are pointing towards the PCB antenna on the Wemos D1 Mini (opposite end to the USB connector/3.5mm jack). All pins of the shield should be inserted into the female headers | ||
Make sure the 2 IR Leds are pointing towards the PCB antenna on the Wemos D1 Mini (opposite end to the | |||
== Inserting Shield into ESP32 D1 Mini == | == Inserting Shield into ESP32 D1 Mini == | ||
Line 38: | Line 37: | ||
== Pinouts == | == Pinouts == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Pinouts_Wemos_D1_Mini wiki page] | ||
However, please ignore any IR receiver related pins. | However, please ignore any IR receiver related pins. | ||
== Customisation == | == Customisation == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Customisation wiki page] | ||
== Sending IR signals from AnalysIR == | == Sending IR signals from AnalysIR == | ||
Line 48: | Line 47: | ||
== Sending IR signals without AnalysIR using A.IR format == | == Sending IR signals without AnalysIR using A.IR format == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Sending_IR_signals_without_AnalysIR_using_A.IR_format wiki page] | ||
== Sending signals with CURL == | == Sending signals with CURL == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Sending_signals_with_CURL wiki page] | ||
== Sending Test signals from a HTML POST form == | == Sending Test signals from a HTML POST form == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Sending_Test_signals_from_a_HTML_POST_form wiki page] | ||
== Network Connections to A.IR Shield ESP8266 TRx over WiFi == | == Network Connections to A.IR Shield ESP8266 TRx over WiFi == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Network_Connections_to_A.IR_Shield_ESP8266_TRx_over_WiFi wiki page] | ||
== BAUD Rate == | == BAUD Rate == | ||
Line 63: | Line 62: | ||
== Precautions == | == Precautions == | ||
Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx wiki page] | Refer to section in A.IR Shield ESP8266/ESp32 TRx [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx#Precautions wiki page] | ||
In addition, turn off power | In addition, turn off power '''before''' inserting or removing the 3.5mm jack. | ||
== Using the A.IR Shield ESP8266 TRx with the ESP8266IRremote library == | == Using the A.IR Shield ESP8266 TRx with the ESP8266IRremote library == | ||
Line 72: | Line 71: | ||
'''For sending IR''' (Wemos D1 Mini) | '''For sending IR''' (Wemos D1 Mini) | ||
IRsend irsend(2); // An IR LED is controlled by GPIO pin 2 (D4) | IRsend irsend(2); // An IR LED is controlled by GPIO pin 2 (D4) | ||
'''For receiving IR''' | |||
Not supported with shield - use the [http://wiki.analysir.com/index.php?title=A.IR_Shield_ESP8266/ESP32_TRx TRx shield] instead. | |||
== Tx vs TRx Shield == | == Tx vs TRx Shield == | ||
The | The TRx Shield is the same as [http://wiki.analysir.com/index.php?title=AIR_SHield_ESP8266/ESP32_Tx A.IR Shield ESP8266/ESP32 Tx], '''except''' the TRx has dual IR receivers & dual IR Leds and no 3.5mm jack. | ||
Use the '''TRx''' when you: | Use the '''TRx''' when you: | ||
Line 82: | Line 84: | ||
* Need to decode or reverse engineer signals. | * Need to decode or reverse engineer signals. | ||
* Don’t need to use an IR blaster cable | * Don’t need to use an IR blaster cable | ||
* Need to send and/or receive IR signals. | |||
Use the '''Tx''' when you: | Use the '''Tx''' when you: | ||
Line 89: | Line 92: | ||
* Need to send to multiple devices in different positions | * Need to send to multiple devices in different positions | ||
* Don’t need Rx or decoding capability. | * Don’t need Rx or decoding capability. | ||
== Getting Support == | |||
If you need additional support please open a new issue in our '''[https://www.analysir.com/blog/irforum/ IRforum]''' - under ''Products:Support Requests''. | |||
== More Information == | == More Information == |
Latest revision as of 16:17, 12 March 2019
Where to purchase
Visit AnalysIR's IR Shop where you will find this and a range of similar Infrared solutions.
Data Sheet
The data sheet can be found by clicking here
Loading Firmware
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
However, please note that there is a different firmware for Tx and TRx shields. Essentially the receive parts are removed from the Tx version.
AnalysIR Setup
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page Essentially the only difference is that you cannot receive signals using the Tx shield. However, you can send previously recorded signals from AnalysIR using the Tx shield for testing and troubleshooting.
IR Power Headers
When looking forward from the rear of the shield, header JP1 is located at the left/centre of the shield(with the IR LEDs pointing forward & USB/3.5mm jack to the rear). Insert both jumpers into the x2 or x3 position to double the IR power. Insert one jumper into the x2 and x3 position to triple the IR power. When inserted left-to-right the jumpers are active, otherwise they are inactive. If both jumpers are inactive the IR power will be x1. These jumpers control the IR power for the 2 IR LEDs only. The IR power going to the 3.5mm jack is constant and at a lower level.
Bear in mind that the shield has 2 IR Emitters, which are configured in such a way as to deliver double the IR over using a single LED, for the same power budget. We usually, configure both a TSAL6100 and a TSAL6200 which are identical except that they emit at different angles, thus giving both wide angle and long range coverage for all your signals.
IR Enable Headers
When looking forward from the rear of the shield, header JP2 is located at the right/centre of the shield (with the IR LEDs pointing forward & USB/3.5mm jack to the rear). The jumper towards the front enables the 2 IR LEDs and the jumper towards the rear enables the 3.5mm jack, when inserted. You can enable either circuit or both. If neither jumper is inserted then there will be no IR emitted. (Some users may want to leverage this to use a relay or mechanical switch to allow control over which circuit is enabled.)
3.5mm Jack
The jack is located at the rear of the shield. You can insert traditional IR blasters with 2 connections on the jack into this socket. this allows you to route signals into cabinets or from behind TV or even form cabinets to target devices. The circuit can be left enabled when not in use. However, make sure to turn off all power when inserting or removing the jack plug.
Inserting Shield into Wemos D1 Mini
Make sure the 2 IR Leds are pointing towards the PCB antenna on the Wemos D1 Mini (opposite end to the USB connector/3.5mm jack). All pins of the shield should be inserted into the female headers
Inserting Shield into ESP32 D1 Mini
Make sure the 2 IR Leds are at the same end as the PCB antenna on the ESP32 D1 Mini (opposite end to the usb connector/3.5mm jack). All pins of the shield should be inserted into the female headers. There will be 2 slots empty on the female headers at the USB/jack end.
LEDs
There are 2 LEDs of interest. The first is located on the Wemos D1 Mini. This LED is on the same IO pin as the IR send pin of the shield. After start-up it will always appear on. If this is an issue, it is relatively easy to remove this LED with a soldering iron. For the ESP32, the LED(s) on board the module is not used. The second LED is at the front of the shield and after startup will briefly flash red as IR signals are transmitted. However, when both IR power jumpers are installed, the LED may not flash or be very dim. This is normal behaviour and is related to the use of the red LED as part of the constant current driver circuit for the IR LEDs.
Pinouts
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page However, please ignore any IR receiver related pins.
Customisation
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
Sending IR signals from AnalysIR
To send with AnalysIR - just do Menu->Power Tools->Send IR
Sending IR signals without AnalysIR using A.IR format
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
Sending signals with CURL
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
Sending Test signals from a HTML POST form
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
Network Connections to A.IR Shield ESP8266 TRx over WiFi
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
BAUD Rate
The default BAUD Rate is set at 115,200 bps and may be amended within the firmware. AnalysIR, expects the default value
Precautions
Refer to section in A.IR Shield ESP8266/ESp32 TRx wiki page
In addition, turn off power before inserting or removing the 3.5mm jack.
Using the A.IR Shield ESP8266 TRx with the ESP8266IRremote library
You should just use the following line in your sketch to reflect the use of the A.IR Shield ESP8266 TRx.
For sending IR (Wemos D1 Mini)
IRsend irsend(2); // An IR LED is controlled by GPIO pin 2 (D4)
For receiving IR Not supported with shield - use the TRx shield instead.
Tx vs TRx Shield
The TRx Shield is the same as A.IR Shield ESP8266/ESP32 Tx, except the TRx has dual IR receivers & dual IR Leds and no 3.5mm jack.
Use the TRx when you:
- Need to receive signals or measure carrier frequency – with or without AnalysIR
- Need to decode or reverse engineer signals.
- Don’t need to use an IR blaster cable
- Need to send and/or receive IR signals.
Use the Tx when you:
- Need to use an IR blaster cable
- Need to send IR in 2 different positions (inside/outside cabinet)
- Need to send to multiple devices in different positions
- Don’t need Rx or decoding capability.
Getting Support
If you need additional support please open a new issue in our IRforum - under Products:Support Requests.
More Information
If...
- There is a topic not covered here or
- You would like us to add some more information or
- You have a tip to add or
- you have noticed a mistake
then let us know via the contact page