Update product URLs

Updated for SEO compatibility
Removed retired/discontinued products

Author: santaimpersonator

README.md

@@ -1,12 +1,12 @@
 SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic)
 ========================================
 
-[![SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic)](https://cdn.sparkfun.com/r/600-600/assets/parts/2/7/6/3/7/26620-LG290P-Quadband-GNSS-Breakout-Feature.jpg)](https://www.sparkfun.com/products/26620)
+[![SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic)](https://cdn.sparkfun.com/r/600-600/assets/parts/2/7/6/3/7/26620-LG290P-Quadband-GNSS-Breakout-Feature.jpg)](https://www.sparkfun.com/sparkfun-quadband-gnss-rtk-breakout-lg290p-qwiic.html)
 
-[*SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic) (GPS-26620)*](https://www.sparkfun.com/products/26620)
+[*SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic) (GPS-26620)*](https://www.sparkfun.com/sparkfun-quadband-gnss-rtk-breakout-lg290p-qwiic.html)
 
 
-The [SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic)](https://www.sparkfun.com/products/26620) features the Quectel LG290P GNSS module. The board's dimensions, pin layout, and connectors are exactly the same as our vary popular [SparkFun GPS-RTK-SMA Breakout - ZED-F9P (Qwiic)](https://www.sparkfun.com/products/16481); and can be used as a drop-in replacement. The board also accommodates users with a diverse choice of interfaces including UART, SPI*, and I2C*.
+The [SparkFun Quadband GNSS RTK Breakout - LG290P (Qwiic)](https://www.sparkfun.com/sparkfun-quadband-gnss-rtk-breakout-lg290p-qwiic.html) features the Quectel LG290P GNSS module. The board's dimensions, pin layout, and connectors are exactly the same as our very popular [SparkFun GPS-RTK-SMA Breakout - ZED-F9P (Qwiic)](https://www.sparkfun.com/sparkfun-gps-rtk-sma-breakout-zed-f9p-qwiic.html); and can be used as a drop-in replacement. The board also accommodates users with a diverse choice of interfaces including UART, SPI*, and I2C*.
 
 The LG290P module is a quad-band, multi-constellation, high-precision, RTK GNSS receiver. The module is capable of simultaneously receiving signals from the `L1`, `L2`, `L5`, and `L6`/`E6` frequency bands of the GPS, GLONASS, Galileo, BDS, QZSS, and NavIC GNSS constellations. In addition, the module supports SBAS augmentation systems (WASS, EGNOS, BDSBAS, MSAS, GAGAN, and SDCM), PPP services* (BDS PPP-B2b, QZSS CLAS, MADOCA-PPP, and Galileo HAS), and RTK corrections for precision navigation with a fast convergence time and reliable performance.
 
@@ -54,8 +54,8 @@ Repository Contents
 Product Variants
 ----------------
 
-* [GPS-26620](https://www.sparkfun.com/products/26620) - v1.0, Initial Release
-* [GPS-26916](https://www.sparkfun.com/products/26916) - SparkFun RTK Postcard *(w/ ESP32)*
+* [GPS-26620](https://www.sparkfun.com/sparkfun-quadband-gnss-rtk-breakout-lg290p-qwiic.html) - v1.0, Initial Release
+* [GPS-26916](https://www.sparkfun.com/sparkfun-rtk-postcard.html) - SparkFun RTK Postcard *(w/ ESP32)*
 
 Version History
 ---------------

docs/hardware_assembly.md

@@ -106,10 +106,10 @@ When connecting the Quad-band GNSS RTK breakout board to other products, users s
 
 
 ### Radio Transceivers
-We have designed the locking JST connector to be plun-n-play with the following devices and cables. However, for the [SiK Telemetry Radio v3](https://www.sparkfun.com/products/19032), users should [modify the `VSEL` jumper](../hardware_overview/#jumpers) (1) on the back of the board to enable a 5V output on the `VCC` pin. Below, is a table summarizing the pin connections of the radios.
+We have designed the locking JST connector to be plun-n-play with the following devices and cables. However, for the [SiK Telemetry Radio v3](https://www.sparkfun.com/sik-telemetry-radio-v3-915mhz-100mw.html), users should [modify the `VSEL` jumper](../hardware_overview/#jumpers) (1) on the back of the board to enable a 5V output on the `VCC` pin. Below, is a table summarizing the pin connections of the radios.
 { .annotate }
 
-1. While the [SiK Telemetry Radio v3](https://www.sparkfun.com/products/19032) may function with a **3.3V** input, their specifications stipulate that a **5V** power supply be provided.
+1. While the [SiK Telemetry Radio v3](https://www.sparkfun.com/sik-telemetry-radio-v3-915mhz-100mw.html) may function with a **3.3V** input, their specifications stipulate that a **5V** power supply be provided.
 
 <article style="text-align: center;" markdown>
 
@@ -220,7 +220,7 @@ We have designed the locking JST connector to be plun-n-play with the following
 
 	<div class="grid cards" markdown>
 
-	-   <a href="https://www.sparkfun.com/products/19032">
+	-   <a href="https://www.sparkfun.com/sik-telemetry-radio-v3-915mhz-100mw.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/8/6/3/4/19032-SiK_Telemetry_Radio_V3_-_915MHz__100mW-01.jpg)
 		</figure>
@@ -230,7 +230,7 @@ We have designed the locking JST connector to be plun-n-play with the following
 		**SiK Telemetry Radio V3 - 915MHz, 100mW**<br>
 		WRL-19032</a>
 
-	-   <a href="https://www.sparkfun.com/products/20029">
+	-   <a href="https://www.sparkfun.com/sparkfun-loraserial-kit-915mhz-enclosed.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/9/7/9/0/SparkFun_LoRaSerial_Enclosed_-_20029-1.jpg)
 		</figure>
@@ -240,7 +240,7 @@ We have designed the locking JST connector to be plun-n-play with the following
 		**SparkFun LoRaSerial Kit - 915MHz (Enclosed)**<br>
 		WRL-20029</a>
 
-	-   <a href="https://www.sparkfun.com/products/17239">
+	-   <a href="https://www.sparkfun.com/jst-ghr-04v-to-jst-ghr-06v-cable-1-25mm-pitch.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/6/2/2/2/17239-GHR-04V-S_to_GHR-06V-S_Cable_-_150mm-01.jpg)
 		</figure>
@@ -250,7 +250,7 @@ We have designed the locking JST connector to be plun-n-play with the following
 		**JST-GHR-04V to JST-GHR-06V Cable - 1.25mm pitch**<br>
 		CAB-17239</a>
 
-	-   <a href="https://www.sparkfun.com/products/17854">
+	-   <a href="https://www.sparkfun.com/ghr-04v-s-to-ghr-06v-s-cable-100mm.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/7/0/3/4/17854-GHR-04V-S_to_GHR-06V-S_Cable_-_50mm-01.jpg)
 		</figure>
@@ -320,7 +320,7 @@ The [PTH](https://en.wikipedia.org/wiki/Through-hole_technology "Plated Through
 
 
 ### BlueSMiRF Header (`UART2`)
-The BlueSMiRF header pins on the Quad-band GNSS RTK board, breaks out the `UART2` port of the LG290P GNSS module. This pin layout is perfect for connecting a [serial-to-UART adapter](https://www.sparkfun.com/products/15096) or a transceiver for serial data, such as the [BlueSMiRF Bluetooth&trade; serial-link](https://www.sparkfun.com/products/23287).
+The BlueSMiRF header pins on the Quad-band GNSS RTK board, breaks out the `UART2` port of the LG290P GNSS module. This pin layout is perfect for connecting a [serial-to-UART adapter](https://www.sparkfun.com/sparkfun-serial-basic-breakout-ch340c-and-usb-c.html) or a transceiver for serial data, such as the [BlueSMiRF Bluetooth&trade; serial-link](https://www.sparkfun.com/sparkfun-bluesmirf-v2-headers.html).
 
 
 <div class="grid" markdown>
@@ -381,7 +381,7 @@ Soldering female header pins to the back of the Quad-band GNSS RTK breakout boar
 		The baud rate for the BlueSMiRF transceiver is configured by the [`SerialSpeed` parameter](https://docs.sparkfun.com/SparkFun_BlueSMiRF-v2/at_commands/#serial-commands). The default configuration is `SerialSpeed`: **115200bps**.
 
 
-	Connecting a [BlueSMiRF transceiver](https://www.sparkfun.com/products/23287) to a female header that was soldered to the Quad-band GNSS RTK breakout board. This will allow users to pair their board with a mobile device; and log PNT data on the mobile device and/or connect the LG290P to an NTRIP server for RTK corrections *(through mobile device's cellular or WiFi connection)*.
+	Connecting a [BlueSMiRF transceiver](https://www.sparkfun.com/sparkfun-bluesmirf-v2-headers.html) to a female header that was soldered to the Quad-band GNSS RTK breakout board. This will allow users to pair their board with a mobile device; and log PNT data on the mobile device and/or connect the LG290P to an NTRIP server for RTK corrections *(through mobile device's cellular or WiFi connection)*.
 
 	<div class="grid" markdown>
 
@@ -411,7 +411,7 @@ Soldering female header pins to the back of the Quad-band GNSS RTK breakout boar
 	</div>
 
 === "UART Adapter"
-	Connecting a UART adapter *([Serial Basic](https://www.sparkfun.com/products/15096))* to a male header that was soldered to the Quad-band GNSS RTK breakout board. This will allow users to configure the LG290P, when the USB connection is unavailable.
+	Connecting a UART adapter *([Serial Basic](https://www.sparkfun.com/sparkfun-serial-basic-breakout-ch340c-and-usb-c.html))* to a male header that was soldered to the Quad-band GNSS RTK breakout board. This will allow users to configure the LG290P, when the USB connection is unavailable.
 
 	<figure markdown>
 	[![Serial Basic](./assets/img/hookup_guide/assembly-uart_adapter.jpg){ width="400" }](./assets/img/hookup_guide/assembly-uart_adapter.jpg "Click to enlarge")
@@ -425,7 +425,7 @@ Soldering female header pins to the back of the Quad-band GNSS RTK breakout boar
 		The baud rate for OpenLog needs to be configured in the `config.txt` file.
 
 
-	Connecting an [OpenLog](https://www.sparkfun.com/products/13712) to the Quad-band GNSS RTK breakout board. This will allow users to automatically log PNT data from the LG290P.
+	Connecting an [OpenLog](https://www.sparkfun.com/sparkfun-openlog.html) to the Quad-band GNSS RTK breakout board. This will allow users to automatically log PNT data from the LG290P.
 
 	<figure markdown>
 	[![BlueSMiRF transceiver - top](./assets/img/hookup_guide/assembly-openlog_bottom.jpg){ width="400" }](./assets/img/hookup_guide/assembly-openlog_bottom.jpg "Click to enlarge")
@@ -450,7 +450,7 @@ Soldering an SMA connector to the SMD pads of the Quad-band GNSS RTK breakout bo
 ???+ note "RP-SMA and SMA Connectors"
 	<div class="grid cards" markdown>
 
-	-   <a href="https://www.sparkfun.com/products/592">
+	-   <a href="https://www.sparkfun.com/reverse-polarized-sma-connector.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/4/1/1/Vertical-RP-SMA-0.jpg)
 		</figure>
@@ -460,7 +460,7 @@ Soldering an SMA connector to the SMD pads of the Quad-band GNSS RTK breakout bo
 		**Reverse Polarized SMA Connector**<br>
 		WRL-00592</a>
 
-	-   <a href="https://www.sparkfun.com/products/593">
+	-   <a href="https://www.sparkfun.com/sma-connector.html">
 		<figure markdown>
 		![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/7/1/4/00593-SMA_Connector-01.jpg)
 		</figure>

docs/hardware_overview.md

@@ -3,7 +3,7 @@ icon: material/cog
 ---
 
 ## :material-folder-cog: Design Files
-The SparkFun LG290P Quadband GNSS RTK breakout board's dimensions, pin layout, and connectors are exactly the same as our vary popular [SparkFun GPS-RTK-SMA Breakout - ZED-F9P (Qwiic)](https://www.sparkfun.com/products/16481); and can be used as a drop-in replacement. The board features three UART ports, which are accessible through the USB-C connector, BlueSMiRF *(6-pin PTH)* header , and 4-pin locking JST connector. Users can also interface with the board through the 24 PTH pins that are broken out around the edge of the board. For the GNSS antenna, an SMA antenna connector is provided on the edge of the board; additionally, there are also SMD pads for another <i>(RP-)</i>SMA connector to output a PPS signal. We also provide two 4-pin JST Qwiic connectors for future use, when the I<sup>2</sup>C feature becomes available for the GNSS module.
+The SparkFun LG290P Quadband GNSS RTK breakout board's dimensions, pin layout, and connectors are exactly the same as our very popular [SparkFun GPS-RTK-SMA Breakout - ZED-F9P (Qwiic)](https://www.sparkfun.com/sparkfun-gps-rtk-sma-breakout-zed-f9p-qwiic.html); and can be used as a drop-in replacement. The board features three UART ports, which are accessible through the USB-C connector, BlueSMiRF *(6-pin PTH)* header , and 4-pin locking JST connector. Users can also interface with the board through the 24 PTH pins that are broken out around the edge of the board. For the GNSS antenna, an SMA antenna connector is provided on the edge of the board; additionally, there are also SMD pads for another <i>(RP-)</i>SMA connector to output a PPS signal. We also provide two 4-pin JST Qwiic connectors for future use, when the I<sup>2</sup>C feature becomes available for the GNSS module.
 
 
 <!-- Import the component -->
@@ -749,10 +749,10 @@ The SMD pads to add an SMA connector for the **[PPS output](#pps-output)** from
 
 
 ## JST Connector
-The Quad-band GNSS RTK breakout features a 4-pin [JST GH connector](./assets/component_documentation/JST-GH_datasheet.pdf), which is polarized and locking. Users can access the pins of the `UART3` port, through the JST connector with our [breadboard cable](https://www.sparkfun.com/products/17240)(1) or through the PTH pins. The pin layout of the JST connector is compatible with many of our [serial radios and adapter cables](../hardware_assembly/#radio-transceivers).
+The Quad-band GNSS RTK breakout features a 4-pin [JST GH connector](./assets/component_documentation/JST-GH_datasheet.pdf), which is polarized and locking. Users can access the pins of the `UART3` port, through the JST connector with our [breadboard cable](https://www.sparkfun.com/breadboard-to-jst-ghr-04v-cable-4-pin-x-1-25mm-pitch.html)(1) or through the PTH pins. The pin layout of the JST connector is compatible with many of our [serial radios and adapter cables](../hardware_assembly/#radio-transceivers).
 { .annotate }
 
-1. <a href="https://www.sparkfun.com/products/17240">
+1. <a href="https://www.sparkfun.com/breadboard-to-jst-ghr-04v-cable-4-pin-x-1-25mm-pitch.html">
 	<figure markdown>
 	![Product Thumbnail](https://cdn.sparkfun.com/assets/parts/1/6/2/2/3/17240-Breadboard_to_GHR-04V-S_Cable_-_150mm-01.jpg){ width="300" }
 	</figure>