When trying to place a buy or sell order with the python-binance API I got the following error:

APIError(code=-1013): Filter failure: LOT_SIZE.

Now I've seen at iceberg_parts that this means there is probably something wrong with my buying or selling quantity. I've tried to increase the quantity by a factor 10 but this only gives me another related error:

APIError(code=-1013): Filter failure: MIN_NOTIONAL.

Here's some of my code:

diff = current_price - prev_price
if diff <= 0.0001:
    order = client.order_market_buy(symbol = market , quantity = '0.0001')
    print('buy order')
if diff >= 0.00040:
    order = client.order_market_sell(symbol =market, quantity ='0.0001')
    print('sell order')

Do you know how to fix this?

13 Answers 13


This error appears because you are trying to create an order with a quantity lower than the minimun required.

You can access the minimun required of a specific pair with:

info = client.get_symbol_info('ETHUSDT')

Output a dictionary with information about that pair. Now you can access the minimun quantity required with:

# 0.00001

Maybe this can explain why the server returns this error.


From the endpoint GET /api/v3/exchangeInfo, you can find all details regarding the trading symbols. It includes many filters that clients need to follow to place an order. For example, the BTCUSDT has the filters as of today(2022-08-31)

"filters": [
        "filterType": "PRICE_FILTER",
        "minPrice": "0.01000000",
        "maxPrice": "1000000.00000000",
        "tickSize": "0.01000000"
        "filterType": "PERCENT_PRICE",
        "multiplierUp": "5",
        "multiplierDown": "0.2",
        "avgPriceMins": 5
        "filterType": "LOT_SIZE",
        "minQty": "0.00001000",
        "maxQty": "9000.00000000",
        "stepSize": "0.00001000"
        "filterType": "MIN_NOTIONAL",
        "minNotional": "10.00000000",
        "applyToMarket": true,
        "avgPriceMins": 5
        "filterType": "ICEBERG_PARTS",
        "limit": 10
        "filterType": "MARKET_LOT_SIZE",
        "minQty": "0.00000000",
        "maxQty": "282.39806510",
        "stepSize": "0.00000000"
        "filterType": "TRAILING_DELTA",
        "minTrailingAboveDelta": 10,
        "maxTrailingAboveDelta": 2000,
        "minTrailingBelowDelta": 10,
        "maxTrailingBelowDelta": 2000
        "filterType": "MAX_NUM_ORDERS",
        "maxNumOrders": 200
        "filterType": "MAX_NUM_ALGO_ORDERS",
        "maxNumAlgoOrders": 5

LOT_SIZE validation


If you place an order on this BTCUSDT with parameters:


that is a LIMIT BUY order with price of $19,000, but the quantity is less than minQty in the LOT_SIZE:

0.000005 < 0.00001000

then the server will reject the order, because the request can't pass this filter validation.



Can I place an order with the same parameters but only change the quantity to 0.000015? That is:


You will still receive this error, because the quantity is not able to pass the stepSize size validation: (quantity- minQty) % stepSize == 0

(0.000015 - 0.00001) % 0.00001 != 0



Alright, let us change the quantity to 0.00002, with same parameters:


The order will still be rejected with a different error because it can't pass the filter MIN_NOTIONAL validation.

19000 x 0.00002 = 0.38 < 10 (MIN_NOTIONAL.minNotional)


  • minNotional defines the minimum notional value that required for each order.
  • For MARKET order, the average price is used over the last avgPriceMins minutes.


  • Thank you for the great answer! How would the validation process look like, when I place orders in quote_quantity? Commented Jun 15 at 20:15

I've just gone through this same problem. As a noob, some of the code in these answers seem quite complicated so I came up with a solution.


def check_decimals(symbol):
    info = client.get_symbol_info(symbol)
    val = info['filters'][2]['stepSize']
    decimal = 0
    is_dec = False
    for c in val:
        if is_dec is True:
            decimal += 1
        if c == '1':
        if c == '.':
            is_dec = True
    return decimal

then when you place the order, just do for ex: (make sure qty is a float or decimal)

  B_order = round(qty / symbol_price, decimal)
  order = client.order_market_buy(

The buying or selling quantity has to be >= 10.3 USD or 10.3/price, pass the quantity and price to these decimal settings/filters with the amounts set with decimal

from decimal import Decimal as D, ROUND_DOWN, ROUND_UP
import decimal

info = client.get_symbol_info(symbol=pair)
price_filter = float(info['filters'][0]['tickSize'])
ticker = client.get_symbol_ticker(symbol=pair)
price = float(ticker['price'])
price = D.from_float(price).quantize(D(str(price_filter)))
minimum = float(info['filters'][2]['minQty']) # 'minQty'
quant = D.from_float(quantity).quantize(D(str(minimum))) # if quantity >= 10.3/price
  • Please add some descriptions so that others can understand your answer in future Commented Oct 7, 2020 at 17:02
  • 1
    Thank you, I posted prematurely please check again. Commented Oct 7, 2020 at 17:12

Here is some code.

def round_down(self, coin, number):
    info = self.client.get_symbol_info('%sUSDT' % coin)
    step_size = [float(_['stepSize']) for _ in info['filters'] if _['filterType'] == 'LOT_SIZE'][0]
    step_size = '%.8f' % step_size
    step_size = step_size.rstrip('0')
    decimals = len(step_size.split('.')[1])
    return math.floor(number * 10 ** decimals) / 10 ** decimals
  • 2
    Please explain the code. Even adding some sample output also helps understanding the code. Commented Jun 7, 2021 at 2:06
  • 1
    Truncation could be applied using this one line of code: amount // step_size * step_size (stackoverflow.com/a/41383900/1623342)
    – Halil
    Commented Oct 31, 2021 at 19:22

I have read through all of these forum questions and no one has mentioned the fact that Binance charges a 0.1% fee on all transactions. Meaning you do not have your original buying quantity available to sell back when the sell is triggered.

I have attempted to solve this with:

buy_quantity = round(buy_amount * 0.999, len(str(lotsize).split('.')[1]))

Multiplying my original purchase quantity by 0.999 should reduce it by the amount needed to be able to sell it back.

  • I am realizing that a much better way to do this would be to use: free_bal = [i for i in client.get_account()['balances'] if i['asset'] == 'BTC'][0]['free']
    – Handro
    Commented Jul 13, 2022 at 7:08
  • You don't need to comment if you like to change your solution. You can edit it here.
    – rachwa
    Commented Jul 16, 2022 at 7:13

from binance.helpers import round_step_size

# to get a lot size
def getLotSize(self):
    info = self.apiCall(lambda: self.client.get_symbol_info(self.pair))
    lotSize = float(info['filters'][2]['minQty'])
    return lotSize

# get ceiling value and correct format for a lot size
def getCeilingVal(self):
    pairData = self.apiCall(lambda: 
    pairPrice = pairData["price"]
    ceilingVal = float(self.dInv) / float(pairPrice)

    aLotSize = self.getLotSize()
    rounded_amount = round_step_size(ceilingVal, aLotSize)

    return rounded_amount
  • Your answer could be improved with additional supporting information. Please edit to add further details, such as citations or documentation, so that others can confirm that your answer is correct. You can find more information on how to write good answers in the help center.
    – Community Bot
    Commented Oct 12, 2021 at 5:59

Here's a very helpful code using binance-python package

  // Full code: https://github.com/ndiecodes/binance-trading-bot/blob/main/main.py

  def get_round_step_quantity(self, qty):
    info = self.client.get_symbol_info(Config.TRADESYMBOL)
    for x in info["filters"]:
        if x["filterType"] == "LOT_SIZE":
            self.minQty = float(x["minQty"])
            self.maxQty = float(x["maxQty"])
            self.stepSize= float(x["stepSize"])
    if qty < self.minQty:
        qty = self.minQty
    return round_step_size(quantity=qty, step_size=self.stepSize)

Hi adding a bit further to @stack if I've 20 dollars to buy then my quantity would be as below

I've done like below

print("DECIMAL PLACES {0}".format(decimal_places))
buy_qauntity= round((20/order_input["askPrice"].values[0]),decimal_places)

This is not about MARKET_LOT_SIZE. This is MIN_NOTIONAL. Let's say ETHUSDT's minQty (under MARKET_LOT_SIZE filter) is 0.001 but you can still not place an order as notional (under MIN_NOTIONAL filter) is 20. Your order value must be above 20 (MIN_NOTIONAL) and your qty must over 0.001 (minQty). You want to grab these filters via exchangeInfo

Check out docs


I write a function like that. It's working for me.

def getPriceLotFormat(self, priceOrg, quantityOrg):
    price = float(priceOrg)
    quantity = float(quantityOrg)
    response = self.get_symbol_info(car.pair) #self is client btw
    priceFilterFloat = format(float(response["filters"][0]["tickSize"]), '.20f')
    lotSizeFloat = format(float(response["filters"][2]["stepSize"]), '.20f')
    # PriceFilter
    numberAfterDot = str(priceFilterFloat.split(".")[1])
    indexOfOne = numberAfterDot.find("1")
    if indexOfOne == -1:
        price = int(price)
        price = round(float(price), int(indexOfOne - 1))
    # LotSize
    numberAfterDotLot = str(lotSizeFloat.split(".")[1])
    indexOfOneLot = numberAfterDotLot.find("1")
    if indexOfOneLot == -1:
        quantity = int(quantity)
        quantity = round(float(quantity), int(indexOfOneLot))
    ##### SELL #####
    Pair : {str(car.pair)}
    Cash : {str(car.price)}
    Quantity : {str(car.quantity)}
    Price : {str(car.price)}

We can use the Log10 function to get rounding precision from the Binance /api/v3/exchangeinfo endpoint data.

CurrencyRoundNum = int(math.Abs(math.Log10(stepSize)))
PriceRoundNum = int(math.Abs(math.Log10(tickSize)))

The full version on golang is here, or at go playground. I'm sorry that code is not on python.


So I was struggling with the LOT_SIZE error myself.

Previously I was using the round_step_size function from the python-binance library, however, I had to edit this function to deal with this API error.

Here is a function that I use:

from decimal import Decimal, ROUND_DOWN
import math
from typing import Union

def round_step_size(quantity: Union[float, Decimal], step_size: Union[float, Decimal]) -> float:
    if step_size == 1.0:
        return math.floor(quantity)
    elif step_size < 1.0:
        return Decimal(f'{quantity}').quantize(Decimal(f'{step_size}'), rounding=ROUND_DOWN)

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