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authorMarti Bolivar <mbolivar@leaflabs.com>2012-09-03 23:58:39 -0400
committerMarti Bolivar <mbolivar@leaflabs.com>2012-09-03 23:59:37 -0400
commit9316906d89799170153d6d9be67cb044350332e1 (patch)
tree4f01fe3d08df347e5a077b014ca1f2fa79e045ae
parent218e0ca6ee88698d5d9b91331954baead16a6c1b (diff)
downloadlibrambutan-9316906d89799170153d6d9be67cb044350332e1.tar.gz
librambutan-9316906d89799170153d6d9be67cb044350332e1.zip
Fix typos in board power regulation sections.
"amount off current" is wrong. Signed-off-by: Marti Bolivar <mbolivar@leaflabs.com>
-rw-r--r--source/hardware/maple-mini.rst2
-rw-r--r--source/hardware/maple-native-beta.rst12
-rw-r--r--source/hardware/maple.rst12
3 files changed, 13 insertions, 13 deletions
diff --git a/source/hardware/maple-mini.rst b/source/hardware/maple-mini.rst
index 36702dd..c28211d 100644
--- a/source/hardware/maple-mini.rst
+++ b/source/hardware/maple-mini.rst
@@ -70,7 +70,7 @@ other supplies power to the analog voltage plane.
These voltage regulators nominally take an input of up to 16V. In
addition, while the maximum continuous output current for the board is
250mA, if you are powering the board off higher voltages the amount
-off current it can supply goes down, due to the regulators needing to
+current it can supply goes down, due to the regulators needing to
dissipate the extra power. So if you are powering the board off 12V,
the max current is about 40mA at room temperature. In general (again,
at room temperature) the max power dissipation (PD) for the chip is
diff --git a/source/hardware/maple-native-beta.rst b/source/hardware/maple-native-beta.rst
index f1b2284..45dd6c4 100644
--- a/source/hardware/maple-native-beta.rst
+++ b/source/hardware/maple-native-beta.rst
@@ -82,12 +82,12 @@ other supplies power to the analog voltage plane.
These voltage regulators nominally take an input of up to 16V. In
addition, while the maximum continuous output current for the board is
-250mA, if you are powering the board off higher voltages the amount
-off current it can supply goes down, due to the regulators needing to
-dissipate the extra power. So if you are powering the board off 12V,
-the max current is about 40mA at room temperature. In general (again,
-at room temperature) the max power dissipation (PD) for the chip is
-about .37W, and output current = PD/(Vin-Vout). For exact max current
+250mA, if you are powering the board off higher voltages the current
+it can supply goes down, due to the regulators needing to dissipate
+the extra power. So if you are powering the board off 12V, the max
+current is about 40mA at room temperature. In general (again, at room
+temperature) the max power dissipation (PD) for the chip is about
+.37W, and output current = PD/(Vin-Vout). For exact max current
calculations, please refer to the datasheet linked above.
If you are planning to draw a lot of current from the Maple Native
diff --git a/source/hardware/maple.rst b/source/hardware/maple.rst
index aff64d5..0d8f49c 100644
--- a/source/hardware/maple.rst
+++ b/source/hardware/maple.rst
@@ -132,12 +132,12 @@ other supplies power to the analog voltage plane.
These voltage regulators nominally take an input of up to 16V. In
addition, while the maximum continuous output current for the board is
-250mA, if you are powering the board off higher voltages the amount
-off current it can supply goes down, due to the regulators needing to
-dissipate the extra power. So if you are powering the board off 12V,
-the max current is about 40mA at room temperature. In general (again,
-at room temperature) the max power dissipation (PD) for the chip is
-about .37W, and output current = PD/(Vin-Vout). For exact max current
+250mA, if you are powering the board off higher voltages the current
+it can supply goes down, due to the regulators needing to dissipate
+the extra power. So if you are powering the board off 12V, the max
+current is about 40mA at room temperature. In general (again, at room
+temperature) the max power dissipation (PD) for the chip is about
+.37W, and output current = PD/(Vin-Vout). For exact max current
calculations, please refer to the datasheet linked above.
If you are planning to draw a lot of current from the Maple board, it